1. VMAR - Covering - General Information
1.1. VMAR - Covering - How to Identify What Type of Covering is on My Model.

Question: How can I identify what type of covering is on my VMAR model?

Answer: It's not hard. Just look for these tell-tale signs.

  • POLYCOTE ECS - The finish is glossy with a deep pearl like finish as if you are looking through a layer of clear plastic (cause you are!). Nothing else looks like POLYCOTE ECS!
  • VCOTE - Except for white, the colors are generally flat. Used on older models AND on some warbirds where a flat camoflage finish is desired.
  • VCOTE2-3DSVC - Used on higher end models where more scale like 3D detailing is required. It has a a glossy or semi-glossy finish but most importantly some of the rivets and panel lines are indented into the surface to give a true 3D look and feel to the detailing. Run your finger nail across a variety of panel lines, if any of the lines are indented... you've got VCOTE2-3DS on your model.

If you need a bit more help with this, check out the descriptions and key features of each covering type as shown below.

POLYCOTE ECS - What is it?

POLYCOTE ECS is a proprietary Enhanced Covering System engineered in Canada & available only from VMAR.

  • With POLYCOTE ECS the graphics are inside the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • POLYCOTE ECS utilizes ULTRA TOUGH polyester and our SURE SEAL system to ensure that the seams stay down!
  • Best of all POLYCOTE is totally fuel proof!

Quite simply... POLYCOTE ECS leads the pack in ARF covering systems! By putting the graphics where they belong... inside the POLYESTER covering... we've eliminated the need for decals and overlays and reduced  maintenance to a minimum. No overlays edges to pick up, very few seams, extraordinary fuel proofing etc. With POLYCOTE ECS you will spend more time flying and less time applying and reworking the covering!

POLYCOTE ECS offers the best in covering performance!

VCOTE2-3DS - What is it?

VCOTE2-3DS is a proprietary 3D Detailing System engineered in Canada and used on our premium VMAR ARF models where scale detailing and a tough long lasting covering is essential! Rivets and some of the hatches and panel lines are actually 3D. They stand up on the surface skin like the real thing!

VCOTE2-3DS is totally different and simply the best covering and detailing system available. VCOTE2-3DS builds on our VCOTE technology and goes a lot farther. All the detailing is inside the covering... no decals, no strips, no stripes and totally fuel proof.

Best of all... VCOTE2-3DS is very very sag resistant. Extensively tested in direct sunlight and heated air up to 130F!

  • With VCOTE2-3DS the graphics are pre-applied to the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • VCOTE2-3DS utilizes a tough heat shrinkable film and our SURE SEAL system to ensure that the seams stay down!
  • VCOTE2-3DS is fuel proof. We recommend dabing up any raw unburned high nitro fuel as a precaution.

By pre-applying the the graphics... we've eliminated the need for decals or overlays completely and reduced the need for maintenance to a minimum. No decal or overlay edges to pick up, and very few seams. With VCOTE2-3DS you will have a great model that looks terrific right out of the box and spend more time flying and less time applying and reworking the covering!

VCOTE2-3DS 3D Detailing System - Only from VMAR!

 

1.2. VMAR - Covering - Color Changes
Question: Does covering change color over time?
 
Answer: Yes.
 
To varying degree's nearly all colors and types of heat shrink plastic covering will change color over time when exposed to light and/or heat. Bright sunlight and hot temperatures tend to accelerate the process.
 
Flourescent colors and most shades of blue and purple will show the most change when exposed to light and will tend to fade or appear more muted when exposed to light.
 
VCOTE and VCOTE2-3DS may also change color when exposed to raw high nitro fuel and/or non-approved cleaning solvents.
 
 
1.3. VMAR - Covering - Custom Graphics
Question: Are VMAR models available with Custom Graphics?
 
Answer: Yes.
 
There is a set up a charge and a minimum run quantity. Custom Graphics are viable for hobby shops and clubs who wish to promote their organization. Please email sales@richmondrc.com for more information.
 
Please note that Custom Graphics will be very expensive if the run size is small hence this service is not recommended for run sizes of less than 25.  
1.4. VMAR - Covering - Not Factory Applied
Question: Are VMAR models available without the factory applied covering? I'd like to get just the bare wood model and cover it myself.  
 
Answer: Yes.
 
This is a special order requiring 50% payment at time of order and 50% when we are ready to ship. Lead time is 120 days. To order OnLine please add a note to your order (in the notes or comments section) specifying WITHOUT COVERING.
 
Please note that due to the need for additional packaging and handling to protect the bare non-covered framework, shipping charges are double the normal rates and that there is NO product warranty and NO insurance available for shipping damage. These products are sold as FINAL SALE items and subject to the same terms & conditions as our Final Sale items. Please see the following link for further information on the Terms and Conditions associated with FINAL SALE items:

 

POLYCOTE ECS - Tools - For working with POLYCOTE ECS

 

1.5. VMAR - Covering - Patch Material - Availability

Question: The documentation that was included with my model, refers to patch sheets. I did not get these. What's the story here?

Answer: Due to continual upgrading of the covering material, since early 2005 patch sheets are NOT shipped with the model. Please see the Knowledge Base article related to the covering on your model and then consult the Care & Maintenance > Repairing Punctures article for further information on patching punctures.

Covering Patch Material and Covering Sets are available as after market items. Please see the VMAR OnLine Store at www.richmondrc.com

Covering Patch Material is sold as a generic set suitable for most models. This is available as part# VMA-PATCHPAK. You may also wish to consider the appropriate covering set for your particular model.

If you wish to jump straight to the parts section of the VMAR OnLine Store please go to:  http://www.richmondrc.com/shop2/VMA_USA_Retail.html.  To locate the generic set of Covering Patch Material use the search engine and search on Patch. To find the covering set for your particular model, we suggest searching on the part number of the model itself or the name of the model. Searching on SUB-COVERSET may also prove helpful.

1.6. VMAR - Covering - Patches vs Sets - What's the Difference?
Question: What is the difference between Covering Patches and Covering Sets?

Answer:
Covering Sets contain all the covering applicable to the set type. For example a Covering Set for a Wing contains all the covering for that wing.
 
Covering Patch Material is available in two forms.
a) A generic patch set suitable for many models that is available as part# VMA-PATCHPAK. This contains a variety of color swatches that work on many models but no attempt is made to try to provide a perfect color match to any particular model.
 
b) A patch set made from the particular covering for a specific model. Basically a complete set of actual covering is cut up into small swatches and pieces. Each patch set contains about 1/12 of the covering set for that model.
 If you wish to jump straight to the parts section of the VMAR OnLine Store please go to:  http://www.richmondrc.com/shop2/VMA_USA_Retail.html.  To locate the generic set of Covering Patch Material use the search engine and search on Patch. To find the covering set or patches for your particular model, we suggest searching on the part number of the model itself or the name of the model. Searching on SUB-COVERSET may also prove helpful.
1.7. VMAR - Covering - POLYCOTE ECS - Information & Tips
1.7.1. POLYCOTE ECS - What is it?

POLYCOTE ECS is a proprietary Enhanced Covering System engineered in Canada & available only from VMAR.

  • With POLYCOTE ECS the graphics are inside the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • POLYCOTE ECS utilizes ULTRA TOUGH polyester and our SURE SEAL system to ensure that the seams stay down!
  • Best of all POLYCOTE is totally fuel proof!

Quite simply... POLYCOTE ECS leads the pack in ARF covering systems! By putting the graphics where they belong... inside the POLYESTER covering... we've eliminated the need for decals and overlays and reduced  maintenance to a minimum. No overlays edges to pick up, very few seams, extraordinary fuel proofing etc. With POLYCOTE ECS you will spend more time flying and less time applying and reworking the covering!

POLYCOTE ECS offers the best in covering performance!

1.7.2. POLYCOTE ECS - Can I see the difference?

Question: With POLYCOTE ECS can I actually see the difference?

Answer: You Bet! Nothing beats having the real thing to look at but even on the web you can see the difference. Check out the image below of the VMAR Edge 540T 45-60 ARF ECS using POLYCOTE ECS. Zoom it out by clicking on the image. Now look carefully at the yellow on blue star field and the stylized US Flag and you will see gradient composite colors... possible ONLY with POLYCOTE ECS from VMAR!.

 

Check out the tail detailing (second image shown below) on the VMAR Edge 540T 45-60 ARF ECS using POLYCOTE ECS. With any other covering system this type of detail would be done using decals, overlays and stripes. Worse yet, the factory would leave it "blank" and you would have to do the tedious hours long task yourself. With POLYCOTE ECS all the graphics are inside the covering where they belong. The graphics are totally fuel proof beneath a factory applied rich deep lustre clear layer of POLYCOTE  ECS! No decals! No Layers! No Strips! No Stripes! No work! Nothing to peal up, flak off or snag when you clean your model. ONLY with POLYCOTE ECS from VMAR!.

1.7.3. POLYCOTE ECS - Care & Maintenance Tips

 

1.7.3.1. POLYCOTE ECS - Introduction - Care & Maintenance

 

1.7.3.2. POLYCOTE ECS - Care & Maintenance - Quick Tips

Question: Do you have any pointers regarding the Care & Maintenance of POLYCOTE ECS?

Answer: Yes we have this Summary of Quick Tips. See www.richmondrc.com ( Enter Site > Support Services > Knowledge Base then Search on "Covering") for an expanded explanation of each Tip.

Polyester offers the best in covering performance and as with any new modern technology, the maintenance methods may be different than those you used with your older covering. This is NOT Monokote or Solarfilm, its different. If you have used ORACOVER or ULTRACOTE you will have some experience with working with POLYESTER as a covering material.

Here is our Summary of Quick Tips related to POLYCOTE ECS covering.

  • Avoid Hot Vehicles
    • Cooking your model in your vehicle for hours on end is generally not a good idea! Temperatures can easily exceed 50C (122 F) under such conditions. You will get sags. Consult our Knowledge Base before attempting to remove sags.  
  • Cleaning After Flying
    • We recommend Fantastic household cleaner and disposable paper towels. Mist, do not flood. Wipe along seams, not across. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials for cleaning a model airplane.
  • Cleaning Initially
    • Upon initial inspection if you see a thin streaky film on any of the POLYCOTE ECS, work outdoors and use a paper towel and wipe a slightly wet film of Mineral Spirits over 1/4 of a wing or half a fuselage at a time. Rub gently while still wet. Change towels frequently. Avoid plastics.
  • Cutting
    • Use sharp scissors or an XACTO knife with a sharp #11 blade.
  • Pealing
    • Relatively rare. Fix as soon as possible. Consult our Knowledge Base before attempting to resolve.
  • Protecting the Finish
    • Most Importantly - Follow the cleaning instructions. Use the recommended cleaners and method. Dab away raw fuel. Test small out of the way area and all plastics before applying any glue, solvent, cleaner, paint or other preparation. Patch punctures promptly. Avoid hours and hours sitting in the direct sun.
  • Removing & Using Tape
    • Use low tack tape. When removing tape , peal the tape back on itself parallel to the surface of the covering.
  • Repairing Punctures
    •  Patch promptly. Clean any oil residue from the area of the puncture. Patch should be 1/2" (13mm) bigger on all sides. Round the corners. Seal in place with a heat iron & sock. Tighten area with a Heat Gun.
  • Resealing Seams
    • Act promptly. Clean any oil residue from the area and reseal the seam with thin CA.
  • Tightening Sags
    • Remember SSB... SECURE the perimeter then SHRINK to fit then BOND to the structure. Use an iron with sock to SECURE the perimeter, use a heat gun to SHRINK within the perimeter, use a soft cloth while the covering is warm to BOND the covering to solid substrates.
  • Tools for Working with POLYCOTE ECS
    • Scissors, XACTO with #11 blade, iron, iron sock, regulated heat gun, soft cotton cloth or glove.
1.7.3.3. POLYCOTE ECS - Avoid Hot Vehicles parked in the Sun

Question: I inadvertently left my model locked in my closed van all afternoon in the hot desert sun? Will this have any effect on the POLYCOTE ECS covering?

Answer: Nothing permanent but you will likely have some sagging at least the first and second time you do this. At the risk of sounding facetious... cooking your model in your vehicle for hours on end is generally not a good idea! Temperatures can easily exceed 50C (122 F) under such conditions and if your model is stuck in this environment with no circulation for hours and hours, sagging is often the result.

We recommend avoiding this type of problem. Keep the model out of situations where the temperature is extreme with little or no circulation.

If it has occurred, there is no point in crying over spilt milk...  if you see sagging, don't panic! BEFORE you do anything at all, please review the Tip on Tightening Sags in POLYCOTE ECS.  Sagging is fixable (a whole model can be done in less than an hour) but only if you go about it properly. If you jump into this with your heat iron and heat gun assuming you know how to do this because you've fixed Monokote sags and bubbles for years, you have a high probabilty of making a botch of this and you will be stuck with a rather unpleasant result.

 

1.7.3.4. POLYCOTE ECS - Cleaning After Flying

Question: I have been flying my model using a glow or gasoline engine. I have some oil residue on the model along with some bug guts and a bit of dirt from a less than perfect landing. How do I clean it up?

Answer:  To clean POLYCOTE ECS after flying we recommend Fantastic household cleaner and disposable paper towels. Wipe along seams, not across. To really show off your POLYCOTE ECS covering, after cleaning wtih Fantastic... use a bit of Armorall and buff dry & shiny.

Please carefully review the following information and take particular note if you are planning on using Simple Green, 409 or similar non-approved cleaners.

VMAR - Cleaning Model Aircraft

Question: I have a VMAR ARF model aircraft. What should I be aware of when cleaning it after flying?

Answer: Couple of general suggestions here and a few DO NOT DO caveats. See the additional information below for more details. We recommend Fantastic household cleaner and you can dilute it 50/50 with water. Always test any cleaner on a small out of view area first. Avoid overspray on plastics. Spray cleaner lightly (do NOT flood) and wipe away cleaner and dirt/oil with disposable towels as soon as possible after spraying. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane.

Additional Information: VMAR models are covered in V-Cote, POLYCOTE ECS and VCOTE-2 3DS. All of these materials are heat shrink film. V-Cote is flatter in gloss and tolerates up to 15% nitro fuel well. Higher nitro fuel can soften V-Cote graphics if allowed to sit on the surface for extended periods of time. POLYCOTE ECS is higher in gloss. VCOTE-2 3DS has a medium gloss and has 3D indentations for some panel lines and rivets. POLYCOTE and VCOTE-2 3DS can tolerate high nitro fuels and other fuel types. Always wipe away raw fuel quickly in any event.

All of these covering materials clean well with Fantastic and many other household cleaners. We recommend Fantastic diluted 50/50 with water. Always test on a small out of view area first when working with any cleaner. Do NOT flood or over spray. Avoid spraying directly on plastic components and canopies. Wipe away cleaner and residue immediately after spraying with cleaner using disposable paper towels. 

Do NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane. Simple Green and 409 are good products for cutting grease and other industrial/commercial type applications but they are intended for use on non-porous materials and contain powerful chemicals that are not compatible with adhesives, balsa wood and other material found in a model aircraft. Use a web search engine to search on Simple Green and/or 409 and note the warnings and chemicals appliable to these and similar products. Do NOT NOT NOT use other cleaners having similar chemicals to those found in Simple Green or 409.

Here is a link to information related to 409: http://www.biosci.ohio-state.edu/~jsmith/MSDS/FORMULA%20409%20CLEANER.htm

What can SIMPLE GREEN, 409 and similar cleaners do to your model? Well... it depends. If you are not concerned about the safety aspects of these products and spray these materials on a paper towel and then use the damp towel to wipe down your model (avoid plastics) these products seem to do a good job of cutting grease and cleaning the model and many modelers like these cleaners. However, if you spray the material on to the model rather than the towel, you run the risk of the cleaner running into seams, cavities, hinge slots, covering joints and onto plastic components etc. These type of cleaners are intended for non-porous materials and if they wick or run into adhesive joints, hinge slots or under covering they can loosen the covering (this has been going on for years and modelers sometimes fight back with CA on the joint) AND react with some adhesives to soften and weaken the bond. We have also seen these type of cleaners react with adhesive commonly used to glue hinges and canopies into place and leave an ugly looking dark green stain under the covering where it has wicked further into the wooden substrate. This cannot be repaired and will continue to spread if more Simple Green, 409 or similar cleaner finds its way into the same area. We have also seen these type of cleaners attack plastic... generally the plastic does not dissolve or soften, instead it gets dry, hard, brittle and will over time crack and flake off.

In summary it would be best to use the cleaner and the techniques we recommend. If you are fond of your particular cleaner then at least make sure you follow the techniques we have outlined above. Test first. Do not flood or overspray. Wipe away quickly. Best to spray on the towel rather than the model. Make sure no cleaner can get into the model substrate such as the balsa or plywood materials... stay away from hinge slots, seams, cavities, joints, adhesive bonds etc. Protect plastics from direct contact with cleaners and/or long term exposure to cleaners.

Related Articles:

For each type of covering we use, there may be additional articles related to cleaning that particular covering. To check for Related Articles please use the Search tool near the top left of the Knowledge Base window and search on the word "Clean". Type just the letters Clean (clean) into the search box and then click on the button marked Search. The search tool will return a list of articles having "Clean" in the header or body. We suggest reviewing the articles related to the covering on your particular model.

 

1.7.3.5. POLYCOTE ECS - Cleaning Initially

Question: I have my model all assembled and have a few streaks or other residue on the POLYCOTE ECS covering. How do I clean these off.

Answer:  POLYCOTE ECS has very few seams and we use our SURE SEAL system to really lock the seams down. Upon initial inspection if you see a thin streaky film on any of the POLYCOTE ECS when looked at under bright light this is a light residue from the SURE SEAL process. It is easily removed using Minerial Spirits (Paint Thinner, Varsol). If you've ever painted with oil base paints you probably have Mineral Spirits on hand already, if not, it is readily available at a paint or hardware store. It is recommended that you work with Mineral Spirits outdoors and follow the directions on the container. Use a paper towel and wipe a slightly wet film of Mineral Spirits over 1/4 of a wing or half a fuselage at a time. Rub gently while still wet. Change towels frequently. Use a clean towel to buff dry. If you want to accentuate the deep "clear cote" gloss of POLYCOTE ECS even more, use a bit of Armorall and buff shiny with a clean paper towel. Discard all soiled paper towels into a metal garbage can stored outdoors.

 

1.7.3.6. POLYCOTE ECS - How to Cut.

Question: POLYCOTE ECS is tough stuff! How do I cut it?

Answer: POLYCOTE ECS is made from Ultra Tough Polyester. Where possible, use scissors to cut POLYCOTE. Scissors work well. Otherwise use a new sharp #11 Blade. The blade must be SHARP.

 

1.7.3.7. POLYCOTE ECS - Pealing - What should I do?

Question: I've been flying my VMAR model for a while and notice that a small area of covering appears to have lifted at an edge and looks like it is pealing back. What should I do?

Answer: Don't panic! This is generally repairable. This can occur in two ways.

a) If the color layer is still bonded to the underside of the clear polyester layer, use a heat iron and soft heat iron sock to iron the loose layer back into place. If the seam is on a curve such as a leading or trailing edge or at the edge of a cutout like a servo cavity, you might want to wick thin CA along the exposed seam after you have reseated the covering to ensure the edge does not pick up again.

b) If the color layer has remained on the model and only the clear polyester layer has pulled away, you can try the same method as outlined in a) above but you will need more heat to rebond the clear layer to the model. If this does not work, you can either remove the clear layer where it is loose and recover the exposed section with clear UltraCote (UltraCote is made also made from Polyester) or you can apply a thin coat of latex contact cement (spray on works well) to the exposed area and the underside of the clear loose film and after the contact cement has dried to tacky, firmly press the loose film back into place working towards the edge. Work slowly and wipe back and forth as you press downwards. If you do do not have access to contact cement you might want to try a product called Balsarite from Coverite products which is specifically made to help increase the bond strenght between most coverings and balsa wood. . Seal the edge with CA as outlined in a) above.

 

1.7.3.8. POLYCOTE ECS - Protecting the Finish - What should I do?

Question: I've been flying my VMAR model for a while and it looks great. Is there anything that I need to do protect the finish to ensure it lasts.

Answer: POLYCOTE ECS is pretty tough stuff and does not need kid glove handling. If you do the following you should get good durability for the life of the model.

  • Most Importantly - Follow the Cleaning instructions. Use the recommended Cleaners and Method.
  • Secondly, remove raw fuel from the canopy, plastic parts and around seams as soon as possible. Dab it off gently and then clean with Fantastic.
  • Test anything you apply to any covering, plastic or component. It's a good idea to assume that whatever is made there is something that can attack it. Test any glue, paint, cleaner, sealer, wax or anything else you may feel inclined to try on your model by applying the material to a small out of the way area first. If you get a reaction, a small blemish is better than having your canopy curl up or the covering turn black overnight. We've run into some very strang situations over the years... 99.9% of these would have been avoided by testing first.
  • Avoid hours and hours sitting in the direct sun. UV light can play hell with pigments especially dark colors and flourescents. This does not mean you need to go around covering your model every 15 minutes but if you can get it out of the sun after a few hours we would suggest that's a good way to go.
  • Patch holes and tack down any loose seams as soon as possible after the problem is noticed.

That's about it. Nothing to really sweat over... basically common sense.

 

1.7.3.9. POLYCOTE ECS - Removing & Using Tape

Question: Some of my control surfaces have arrived from the factory with tape holding them in place during shipment. Is there a correct method for removing the tape.

Answer: When removing tape from POLYCOTE ECS (or any covering for that matter), peal the tape back on itself so that the pulling is parallel to the surface of the covering. If the tape is near or across a seam or an edge, peal towards the edge or seam. Do NOT pull the tape up at right angles to the covering or away from a seam or edge.

If you use your own tape during the assembly process, use a low tack masking tape and remove it using the procedure noted above.

 

1.7.3.10. POLYCOTE ECS - Repairing Punctures - How to Patch.

Question: I have a puncture in my POLYCOTE ECS.  How do I patch this?

Answer:  If you puncture POLYCOTE ECS, clean any oil residue from the area of the puncture. We clean using Fantastic and then a paper towel moistened with Pacer De-Bonder or alcohol or water to remove any remaining residue from the surface. The patch should be 1/2" (13 mm) bigger than the hole on all sides.

It may be difficult to match colors or patterns. When you run into this challenge, you might want to take a different approach. Rather than try to match the color or pattern, deliberately use a black white or silver patch and cut it into the shape of a panel hatch. Detail this with lettering and a perimeter line and it will look like the hatch is supposed to be there. Another trick is to cut the patch into a shape of a letter, flag or aircraft marking.

We recommend using after market POLYCOTE patching material or polyester covering such as POLYCOTE, ULTRACOTE or ORACOVER and the use of a heat iron and soft cloth. Monokote, SolarFilm or V-COTE covering material will also work. Cut the patch with rounded corners. Seal the patch in place with a heat iron set at 250F first and then tighten the patch and the original covering around the patch as outlined in the tightening tip. You may need to experiment a bit with the temperature of your iron depending on the patch material you are using.

To repair larger more extensive damage areas, you may wish to obtain the appropriate POLYCOTE ECS covering set for your model

 

1.7.3.11. POLYCOTE ECS - Seam Loose - How to Reseal.

Question: One of the seams on my model has come loose. What have I done wrong? What should I do to reseal it?

Answer: Although we are very careful to tack all seams down and then to seal them as well, we are not perfect (although we're trying!) so the loosening of a seam may not be due to anything you are doing. Once a seam is in place properly we advise being very careful when cleaning the model to avoid wiping across the seam... wipe parallel to it. There are very few seams on VMAR models.

Generally seams are located at:

  • The trailing edge of the wing (hidden by the aileron),
  • The leading edge of the wing if swept or tapered,
  • The leading and trailing edge of the horizontal stabilizer,
  • 1 or more seams on the bottom of the fuselage,
  • Some models with shaped turtle decks may have a seam at the top of the fuselage running more or less along the spine.

If you do have a loose edge, clean any oil residue from the area and the edge and reseal with thin CA.

 

1.7.3.12. POLYCOTE ECS - How to Tighten Sags

Question: My model is covered with POLYCOTE ECS and I have noticed that there are some sags in the covering. What is causing this? Can I fix it? What should I do?

Answer: It helps to understand how the sags develop before we get into tightening things up to get rid of the sags.

In low humidity air such as is found in the hot desert areas or in continental winter conditions where cold outside air is brought inside and heated to 22C ( 70F), the underlying structure is drying and shrinking. Many modelers feel that the sags are caused by heat and to a point they are correct because hot conditions are often dry and most definitely heat is the key to solving the problem. However, the real underlying cause is low humidity air drying the structure out and as the structure drys it gets lighter and smaller. POLYCOTE ECS will not shrink at normal room temperatures and you end up with,  in effect,  more covering on your model than you need!

The way to get rid of the sags is to shrink the POLYCOTE ECS with a heat gun and rub it down into the substrate with a soft cloth once it has shrunk. Before you start firing up your flame thrower, please note the following procedure... if you get the method down pat, you will get a good result and not have to do this more than 1-2 times... 3 times at most. However if you assume that POLYCOTE ECS is like Monokote or SolarFilm, you will make a hash of it and you will not be happy with the outcome. POLYCOTE ECS is polyester and the technique for shinking it is similar to that used for ORACOVER (ULTRACOTE).

Remember SSB! As in 

SECURE the perimeter.

SHRINK to fit

BOND to the structure.

First, SECURE the perimeter by sealing and bonding the seams, edges and around perimeters. Use a heat iron with sock set at around 250F and a soft cotton glove or sock. Heat the perimeter edge in stages, just warm up a small area and then  press the warm covering down firmly with the iron sock or a soft cotton cloth to bond the perimeter of the covering to the underlying substrate. Do not overheat or the edge will pull back as the material shrinks. Always rub along seams, not across the seam. Higher temperatures may assist with complex curved surfaces. Avoid using more heat than required to prevent bubbles from forming beneath the covering or edges pulling back as the material shrinks. Remember you are just SECUREing the perimeter at this point. Be patient and work systematically starting with a small out of the way area first to gain experience.

AFTER SECURING the perimeter, SHRINK the interior areas to fit, using a heat gun set at around 250K. Heat about 1 square foot of area at a time, shrink the covering to fit and then rub the warm covering down firmly with a soft cotton cloth to BOND the covering to the underlying substrate. Over open bays the POLYCOTE ECS will appear to first sag and then begin to tighten as you apply heat. Do this in stages and try repeatedly until the covering over the open bay is tight when cool. Don't overdo it... like may things, there is a technique to this that requies a bit of experience to develop. Go slowly one step at a time. Higher temperatures may assist with complex curved surfaces. DO NOT APPLY EXTENSIVE HEAT NEAR EDGES & SEAMS. Always practise on the bottom of a less noticable section first. Be patient and work systematically. You will likely only have to tighten POLYCOTE once or twice to accomodate any shrinkage of the airframe in dry hot conditions.

To prevent or at least minimize the occurence of sags do not leave your model in a closed car parked in the sun. Here is some information that may help you avoid this problem.

1.7.3.13. POLYCOTE ECS - Tools - For working with POLYCOTE ECS

 

VMAR - Covering - Tools - Recommended

Question: What would you recommend in the way of tools for working with Covering materials?

Answer: Here's a list of what we would suggest:

  • A pair of sharp scissors
  • An Xacto Knife with a SHARP #11 Blade
  • A Heat Iron with controllable temperature (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Iron Sock (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Gun with controllable consistent output temperature
  • A soft cotton cloth or glove.

Please note that the heat gun is particularly important. Unfortunately the standard RC covering heat gun has been driven down in price so that it is selling at times for usa$14.95-19.95. We say unfortunately because at that price we are getting exactly what we are paying for... a pretty crude unregulated heat producer. Even a decent hair dryer costs more!

Most of these low end RC covering heat guns do not monitor the heat coming out of the nozzle. They have a heating element that heats the air sucked into the back of the gun and a fan that blasts it out the front. The vanes at the back of the gun have a very limited effect on the output temperature. So... if you take a 1000 watt gun for example, and heat air that is at 50F flowing into the back of gun you get a fixed amount of temperature increase... lets say 350F and the outflowing air is at 50+350=400F. Now run the same gun with ambient air of 75F flowing into the back of the gun and the same 1000W of energy will increase this 75F air by 350 degrees to 425F. So depending on the ambient air temperature you get a different output temperature. To add to the confusion somewhat, adding a fixed amount of energy to dry air (low humidity) will change the temperature of the air more than if you add if you add the same amount of energy to moist (high humidity) air. This variation in output temperature due to changes in the ambient air and ambient humidity makes it very difficult to work out a reliable consistent technique when you are working with heat shrink covering. One day you get a "feel" for the right amount of heat, time and distance and everything goes great. The next day or a month later you try this with a different ambient air temperature and/or different humidity and your technique does not work... why? Because the temperature of the air flowing out of the gun has changed without you being aware of it.

What can you do about this to make your covering technique more consistent? Well sadly to say you either have to live with this problem or you have to dump the cheapy RC covering heat gun and get a heat gun that measures and controls the consistency of the temperature of the air flowing out of the gun.

There are a number of heat guns for shrinking heat shrink tubing that work well. They can be rather expensive but give you good control over the temperature you want AND hold that temperature consistently regardless of ambient temperature and humidity. It's nice to be able to select the temperature if you've got the cash to buy such a gun. If you need to watch your pennies a bit more carefully, we suggest opting for less control and go for consistency. Some of the lower priced heat guns intended for stripping paint do this. You will need to work out the distance and time technique that works for your covering but at least you will be doing so with a gun that is producing a reliable temperature output. We have used the Black & Decker #9756 with good results. This has two temperature settings, 500F and 1000F. Read the safety instructions that comes with the unit. Work with the 500F setting at a good distance at first (say 15") and move the gun frequently until you get a feel for it. Generally the closer you get and/or the hotter the air coming out of the gun, the quicker you have to move the gun (less exposure time) to avoid overheating the covering.

 

1.8. VMAR - Covering - VCOTE Information & Tips
1.8.1. VCOTE - What is it?

VCOTE is a proprietary covering system engineered in Canada available only from VMAR.

  • With VCOTE the graphics are pre-applied to the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • VCOTE utilizes a tough heat shrinkable film and our SURE SEAL system to ensure that the seams stay down!
  • VCOTE is fuel proof to 15% nitro fuels and fuel resistant to higher nitro fuels provided that any raw unburned fuel is removed quickly. We recommend dabbing up any raw unburned high nitro fuel as a precaution.

By pre-applying the the graphics... we've eliminated the need for decals or overlays completely and reduced the need for maintenance to a minimum. No decal or overlay edges to pick up, and very few seams. With VCOTE you will have a great model that looks terrific right out of the box and spend more time flying and less time applying and reworking the covering!

VCOTE from VMAR!

 

 

1.8.2. VCOTE - Care & Maintenance Tips

VCOTE FROM VMAR

LIABILITY DISCLAIMER & COPYRIGHT NOTICE

LIABILITY DISCLAIMER

The authors and/or suppliers and/or disseminaters of this information and/or product expressly disclaim any warranties or representations, either expressed or implied, including but not limited to implied warranties of fitness, accuracy, timeliness or applicability of the information and/or product provided here. In no event will the authors and/or suppliers and/or disseminaters of this information and/or product have any obligation arising from contract or tort, for loss of revenue or profit, or for indirect, special, incidental, consequential or other damages of any sort arising from this information and/or product. In using this information and/or product, the user accepts all responsibility for and all liability associated with such use.

PROCEEDING WITH THE USE OF THIS INFORMATION AND/OR PRODUCT INDICATES AGREEMENT WITH AND ACCEPTANCE OF THE LIABILITY DISCLAIMER.
 
1.8.2.1. VCOTE - Introduction - Care & Maintenance

 

VCOTE - What is it?

VCOTE is a proprietary covering system engineered in Canada available only from VMAR.

  • With VCOTE the graphics are pre-applied to the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • VCOTE utilizes a tough heat shrinkable film and our SURE SEAL system to ensure that the seams stay down!
  • VCOTE is fuel proof to 15% nitro fuels and fuel resistant to higher nitro fuels provided that any raw unburned fuel is removed quickly. We recommend dabbing up any raw unburned high nitro fuel as a precaution.

By pre-applying the the graphics... we've eliminated the need for decals or overlays completely and reduced the need for maintenance to a minimum. No decal or overlay edges to pick up, and very few seams. With VCOTE you will have a great model that looks terrific right out of the box and spend more time flying and less time applying and reworking the covering!

VCOTE from VMAR!

 

 

1.8.2.2. VCOTE - Care & Maintenance - Quick Tips

Question: Do you have any pointers regarding the Care & Maintenance of VCOTE?

Answer: Yes we have this Summary of Quick Tips and at www.richmondrc.com ( Enter Site > Support > Knowledge Base then Search on "Covering") we have an expanded explanation for each of these Tips.

VCOTE is a proprietary covering system engineered in Canada & available only from VMAR. Please note that VCOTE is NOT Monokote or Solarfilm, its different. As with any new modern technology, the maintenance methods may be different than those you used with your older covering so its important to read the Tips over FIRST. Whatever you want to do with VCOTE, test it on a small out of the way area first.

Here is our Summary of Quick Tips related to VCOTE covering.

  • Avoid Hot Vehicles
    • Cooking your model in your vehicle for hours on end is generally not a good idea! Temperatures can easily exceed 50C (122 F) under such conditions. You will get sags. Consult our Knowledge Base before attempting to remove sags.  
  • Cleaning After Flying
    • We recommend Fantastic household cleaner and disposable paper towels. Mist, do not flood. Wipe along seams, not across. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials for cleaning a model airplane.
  • Cleaning Initially
    • Upon initial inspection if you see a thin streaky film on any of the VCOTE, work outdoors and after testing first on a small out of the way area, use a paper towel and wipe a slightly wet film of Alcohol over 1/4 of a wing or half a fuselage at a time. Rub gently while still wet. Change towels frequently. Avoid plastics.
  • Cutting
    • Use sharp scissors or an XACTO knife with a sharp #11 blade.
  • Protecting the Finish
    • Most Importantly - Follow the cleaning instructions. Use the recommended cleaners and method. Avoid raw fuel with nitro content higher than 15%. Dab away all raw fuel regardless of nitro content. Test a small out of the way area and all plastics first before applying any glue, solvent, cleaner, paint or other preparation. Patch punctures promptly. Avoid hours and hours sitting the direct sun.
  • Removing & Using Tape
    • Use low tack tape. When removing, peal tape back on itself so that the pulling is parallel to the surface of the covering.
  • Repairing Punctures
    •  Patch promptly. Clean any oil residue from the area of the puncture. Patch should be 1/2" (13mm bigger) on all sides. Round the corners. Seal in place with a heat iron & sock. Tighten area with a heat gun.
  • Resealing Seams
    • Act promptly. Clean any oil residue from the area and reseal the seam with thin CA.
  • Tightening Sags
    • Remember SSB... SECURE the perimeter then SHRINK to fit then BOND to the structure. Use a heat gun and soft cotton cloth or glove and hand pressure to SECURE the perimeter, use a heat gun to SHRINK within the perimeter, use a soft cloth while the covering is warm to BOND the covering to solid substrates. Consult our Knowledge Base for further information.
  • Tools for Working with VCOTE
    • Scissors, XACTO with #11 blade, iron, iron sock, regulated heat gun, soft cotton cloth or glove.

 

1.8.2.3. VCOTE - Avoid Hot Vehicles parked in the Sun

Question: I inadvertently left my model locked in my closed van all afternoon in the hot desert sun? Will this have any effect on the VCOTE covering?

Answer: Nothing permanent but you will likely have some sagging at least the first and second time you do this. Generally not a good idea. Temperatures can easily exceed 50C (122 F) under such conditions and if your model is stuck in this environment with no circulation for hours and hours, sagging is often the result.

We recommend avoiding this type of problem. Keep the model out of situations where the temperature is extreme with little or no circulation.

If it has occurred, there is no point in crying over spilt milk...  if you see sagging, don't panic! BEFORE you do anything at all, please review the Tip on Tightening VCOTE.  Sagging is fixable (a whole model can be done in less than an hour) but only if you go about it properly. If you jump into this with your heat iron and heat gun assuming you know how to do this because you've fixed Monokote sags and bubbles for years, you have a high probabilty of making a botch of this and you will be stuck with a rather unpleasant result.

 

1.8.2.4. VCOTE - Cleaning After Flying

Question: I have been flying my model using a glow or gasoline engine. I have some oil residue on the model along with some bug guts and a bit of dirt from a less than perfect landing. How do I clean it up?

Answer:  To clean VCOTE after flying we recommend Fantastic household cleaner and disposable paper towels. You can use other similar cleaners but avoid cleaners with solvents or abrasives. It is a good idea to always test a small out of the way spot first. Wipe along seams, not across. To really show off your VCOTE covering, after cleaning wtih Fantastic... use a bit of Armorall and buff dry & shiny.

Please carefully review the following information and take particular note if you are planning on using Simple Green, 409 or similar non-approved cleaners.

VMAR - Cleaning Model Aircraft

Question: I have a VMAR ARF model aircraft. What should I be aware of when cleaning it after flying?

Answer: Couple of general suggestions here and a few DO NOT DO caveats. See the additional information below for more details. We recommend Fantastic household cleaner and you can dilute it 50/50 with water. Always test any cleaner on a small out of view area first. Avoid overspray on plastics. Spray cleaner lightly (do NOT flood) and wipe away cleaner and dirt/oil with disposable towels as soon as possible after spraying. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane.

Additional Information: VMAR models are covered in V-Cote, POLYCOTE ECS and VCOTE-2 3DS. All of these materials are heat shrink film. V-Cote is flatter in gloss and tolerates up to 15% nitro fuel well. Higher nitro fuel can soften V-Cote graphics if allowed to sit on the surface for extended periods of time. POLYCOTE ECS is higher in gloss. VCOTE-2 3DS has a medium gloss and has 3D indentations for some panel lines and rivets. POLYCOTE and VCOTE-2 3DS can tolerate high nitro fuels and other fuel types. Always wipe away raw fuel quickly in any event.

All of these covering materials clean well with Fantastic and many other household cleaners. We recommend Fantastic diluted 50/50 with water. Always test on a small out of view area first when working with any cleaner. Do NOT flood or over spray. Avoid spraying directly on plastic components and canopies. Wipe away cleaner and residue immediately after spraying with cleaner using disposable paper towels. 

Do NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane. Simple Green and 409 are good products for cutting grease and other industrial/commercial type applications but they are intended for use on non-porous materials and contain powerful chemicals that are not compatible with adhesives, balsa wood and other material found in a model aircraft. Use a web search engine to search on Simple Green and/or 409 and note the warnings and chemicals appliable to these and similar products. Do NOT NOT NOT use other cleaners having similar chemicals to those found in Simple Green or 409.

Here is a link to information related to 409: http://www.biosci.ohio-state.edu/~jsmith/MSDS/FORMULA%20409%20CLEANER.htm

What can SIMPLE GREEN, 409 and similar cleaners do to your model? Well... it depends. If you are not concerned about the safety aspects of these products and spray these materials on a paper towel and then use the damp towel to wipe down your model (avoid plastics) these products seem to do a good job of cutting grease and cleaning the model and many modelers like these cleaners. However, if you spray the material on to the model rather than the towel, you run the risk of the cleaner running into seams, cavities, hinge slots, covering joints and onto plastic components etc. These type of cleaners are intended for non-porous materials and if they wick or run into adhesive joints, hinge slots or under covering they can loosen the covering (this has been going on for years and modelers sometimes fight back with CA on the joint) AND react with some adhesives to soften and weaken the bond. We have also seen these type of cleaners react with adhesive commonly used to glue hinges and canopies into place and leave an ugly looking dark green stain under the covering where it has wicked further into the wooden substrate. This cannot be repaired and will continue to spread if more Simple Green, 409 or similar cleaner finds its way into the same area. We have also seen these type of cleaners attack plastic... generally the plastic does not dissolve or soften, instead it gets dry, hard, brittle and will over time crack and flake off.

In summary it would be best to use the cleaner and the techniques we recommend. If you are fond of your particular cleaner then at least make sure you follow the techniques we have outlined above. Test first. Do not flood or overspray. Wipe away quickly. Best to spray on the towel rather than the model. Make sure no cleaner can get into the model substrate such as the balsa or plywood materials... stay away from hinge slots, seams, cavities, joints, adhesive bonds etc. Protect plastics from direct contact with cleaners and/or long term exposure to cleaners.

Related Articles:

For each type of covering we use, there may be additional articles related to cleaning that particular covering. To check for Related Articles please use the Search tool near the top left of the Knowledge Base window and search on the word "Clean". Type just the letters Clean (clean) into the search box and then click on the button marked Search. The search tool will return a list of articles having "Clean" in the header or body. We suggest reviewing the articles related to the covering on your particular model.

 

1.8.2.5. VCOTE - Cleaning Initially

Question: I have my model all assembled and have a few streaks or other residue on the VCOTE covering. How do I clean these off.

Answer:  VCOTE has very few seams and we use our SURE SEAL system to really lock the seams down. Upon initial inspection if you see a thin streaky film on any of the covering when looked at under bright light this is a residue from the SURE SEAL process. Use alcohol with a paper towel and wipe the residue away. VCOTE and the graphics detailing are resistant to alcohol but it is always a good idea to test alcohol or any other cleaner or solvent you are using on a small out of the way area first! Change towels frequently. If you want to accentuate the gloss of VCOTE even more, use a bit of Armorall and buff shiny with a clean paper towel. Test the Armoral on a small out of the way area first! Discard all soiled paper towels into a metal garbage can stored outdoors.

 

1.8.2.6. VCOTE - How to Cut.

Question: VCOTE is tough stuff! How do I cut it?

Answer: VCOTE is made from a thermally reactive film. Where possible, use scissors to cut VCOTE. Scissors work well. Otherwise use a new sharp #11 Blade. The blade must be SHARP.

 

1.8.2.7. VCOTE - Protecting the Finish - What should I do?

Question: I've been flying my VMAR model for a while and it looks great. Is there anything that I need to do protect the finish to ensure it lasts.

Answer: VCOTE is pretty tough stuff and does not need kid glove handling. If you do the following you should get good durability for the life of the model.

  • Most Importantly - Follow the Cleaning instructions. Use the recommended Cleaners and Method.
  • Secondly, Avoid getting raw fuel higher than 15% on the model. Remove any raw fuel from the finish as soon as possible. Dab it off gently and then clean with Fantastic.
  • Test anything you apply to any covering, plastic or component. It's a good idea to assume that whatever is made there is something that can attack it. Test any glue, paint, cleaner, sealer, wax or anything else you may feel inclined to try on your model by applying the material to a small out of the way area first. If you get a reaction, a small blemish is better than having your canopy curl up or the covering turn black overnight. We've run into some very strang situations over the years... 99.9% of these would have been avoided by testing first.
  • Avoid hours and hours sitting in the direct sun. UV light can play hell with pigments especially dark colors and flourescents. This does not mean you need to go around covering your model every 15 minutes but if you can get it out of the sun after a few hours we would suggest that's a good way to go.
  • Patch holes and tack down any loose seams as soon as possible after the problem is noticed.

That's about it. Nothing to really sweat over... basically common sense.

 

1.8.2.8. VCOTE - Removing & Using Tape

Question: Some of my control surfaces have arrived from the factory with tape holding them in place during shipment. Is there a correct method for removing the tape.

Answer: When removing tape from VCOTE (or any covering for that matter), peal the tape back on itself so that the pulling is parallel to the surface of the covering. If the tape is near or across a seam or an edge, peal towards the edge or seam. Do NOT pull the tape up at right angles to the covering or away from a seam or edge.

If you use your own tape during the assembly process, use a low tack masking tape and remove it using the procedure noted above.

 

1.8.2.9. VCOTE - Repairing Punctures - How to Patch.

Question: I have a puncture in my VCOTE.  How do I patch this?

Answer:  If you puncture VCOTE, thoroughly clean any oil residue from the area of the puncture. We clean using Fantastic and a paper towel. Once you have all the oil residue removed, wipe the area again with a fresh clean towel moistened with water or plain alcohol. The patch should be 1/2" (13 mm) bigger than the hole on all sides.

It may be difficult to match colors or patterns. When you run into this challenge, you might want to take a different approach. Rather than try to match the color or pattern, deliberately use a black white or silver patch and cut it into the shape of a panel hatch. Detail this with lettering and a perimeter line and it will look like the hatch is supposed to be there. Another trick is to cut the patch into a shape of a letter, flag or aircraft marking.

We recommend using after market VCOTE patch material. You can also use polyester covering such as POLYCOTE, ULTRACOTE or ORACOVER. Monokote or SolarFilm covering material will also work. Cut the patch with rounded corners. Seal the patch in place with a heat iron with sock set at 225F first and then tighten the patch and the original covering around the patch using a heat gun as outlined in the tightening section above. To repair larger more extensive damage areas, you may wish to obtain the appropriate VCOTE covering set for this model.

 

1.8.2.10. VCOTE - Seam Loose - How to Reseal.

Question: One of the seams on my model has come loose. What have I done wrong? What should I do to reseal it?

Answer: Although we are very careful to tack all seams down and then to seal them as well, we are not perfect (although we're trying!) so the loosening of a seam may not be due to anything you are doing. Once a seam is in place properly we advise being very careful when cleaning the model to avoid wiping across the seam... wipe parallel to it. There are very few seams on VMAR models.

Generally seams are located at:

  • The trailing edge of the wing (hidden by the aileron),
  • The leading edge of the wing if swept or tapered,
  • The leading and trailing edge of the horizontal stabilizer,
  • 1 or more seams on the bottom of the fuselage,
  • Some models with shaped turtle decks may have a seam at the top of the fuselage running more or less along the spine.

If you do have a loose edge, clean any oil residue from the area and the edge and reseal with thin CA.

 

1.8.2.11. VCOTE - How to Tighten Sags

Question: My model is covered with VCOTE and I have noticed that there are some sags in the covering. What is causing this? Can I fix it? What should I do?

Answer: It helps to understand how the sags develop before we get into tightening things up to get rid of the sags.

In low humidity air such as is found in the hot desert areas or in continental winter conditions where cold outside air is brought inside and heated to 22C ( 70F), the underlying structure is drying and shrinking. Many modelers feel that the sags are caused by heat and to a point they are correct because hot conditions are often dry and most definitely heat is the key to solving the problem. However, the real underlying cause is low humidity air drying the structure out and as the structure drys it gets lighter and smaller. VCOTE will not shrink at normal room temperatures and you end up with,  in effect,  more covering on your model than you need!

The way to get rid of the sags is to shrink the VCOTE with a heat gun and rub it down into the substrate with a soft cloth once it has shrunk. Before you start firing up your flame thrower, please note the following procedure... if you get the method down pat, you will get a good result and not have to do this more than 1-2 times... 3 times at most. However if you assume that VCOTE is like Monokote or SolarFilm, you will make a hash of it and you will not be happy with the outcome. VCOTE is a thermal shrink film  and the technique for shinking it is similar to that used for ORACOVER (ULTRACOTE) without the use of a heat iron.

Remember SSB! As in 

SECURE the perimeter.

SHRINK to fit

BOND to the structure.

To tighten VCOTE, use a heat gun only. Do not use a heat iron. First, SECURE the perimeter by sealing and bonding the seams, edges and around perimeters. Use a heat gun set at around 225F and a soft cotton cloth or glove. Heat the perimeter edge in stages, just warm up a small area and then  press the warm covering down firmly with a soft cotton cloth to bond the perimeter of the covering to the underlying substrate. Do not overheat or the edge will pull back as the material shrinks. Always rub along seams, not across the seam. Higher temperatures may assist with complex curved surfaces. Avoid using more heat than required to prevent bubbles from forming beneath the covering or edges pulling back as the material shrinks. Remember you are just SECUREing the perimeter at this point. Be patient and work systematically starting with a small out of the way area first to gain experience.

AFTER SECURING the perimeter, SHRINK the interior areas to fit, using a heat gun set at around 225K. Heat about 1 square foot of area at a time, shrink the covering to fit and then rub the warm covering down firmly with a soft cotton cloth to BOND the covering to the underlying substrate. Over open bays heat the VCOTE until it is warm and sags slightly then remove the heat and the VCOTE will shrink tight over the open bay. Try this repeatedly until the covering over the open bay is tight. Higher temperatures may assist with complex curved surfaces. DO NOT APPLY EXTENSIVE HEAT NEAR EDGES & SEAMS. Always practise on the bottom of a less noticable section first. Be patient and work systematically. You will likely only have to tighten VCOTE once or twice to accomodate any shrinkage of the airframe in dry hot conditions.

To prevent or at least minimize the occurence of sags do not leave your model in a closed car parked in the sun. Here is some information that may help you avoid this problem.

1.8.2.12. VCOTE - Tools - For working with VCOTE

 

VMAR - Covering - Tools - Recommended

Question: What would you recommend in the way of tools for working with Covering materials?

Answer: Here's a list of what we would suggest:

  • A pair of sharp scissors
  • An Xacto Knife with a SHARP #11 Blade
  • A Heat Iron with controllable temperature (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Iron Sock (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Gun with controllable consistent output temperature
  • A soft cotton cloth or glove.

Please note that the heat gun is particularly important. Unfortunately the standard RC covering heat gun has been driven down in price so that it is selling at times for usa$14.95-19.95. We say unfortunately because at that price we are getting exactly what we are paying for... a pretty crude unregulated heat producer. Even a decent hair dryer costs more!

Most of these low end RC covering heat guns do not monitor the heat coming out of the nozzle. They have a heating element that heats the air sucked into the back of the gun and a fan that blasts it out the front. The vanes at the back of the gun have a very limited effect on the output temperature. So... if you take a 1000 watt gun for example, and heat air that is at 50F flowing into the back of gun you get a fixed amount of temperature increase... lets say 350F and the outflowing air is at 50+350=400F. Now run the same gun with ambient air of 75F flowing into the back of the gun and the same 1000W of energy will increase this 75F air by 350 degrees to 425F. So depending on the ambient air temperature you get a different output temperature. To add to the confusion somewhat, adding a fixed amount of energy to dry air (low humidity) will change the temperature of the air more than if you add if you add the same amount of energy to moist (high humidity) air. This variation in output temperature due to changes in the ambient air and ambient humidity makes it very difficult to work out a reliable consistent technique when you are working with heat shrink covering. One day you get a "feel" for the right amount of heat, time and distance and everything goes great. The next day or a month later you try this with a different ambient air temperature and/or different humidity and your technique does not work... why? Because the temperature of the air flowing out of the gun has changed without you being aware of it.

What can you do about this to make your covering technique more consistent? Well sadly to say you either have to live with this problem or you have to dump the cheapy RC covering heat gun and get a heat gun that measures and controls the consistency of the temperature of the air flowing out of the gun.

There are a number of heat guns for shrinking heat shrink tubing that work well. They can be rather expensive but give you good control over the temperature you want AND hold that temperature consistently regardless of ambient temperature and humidity. It's nice to be able to select the temperature if you've got the cash to buy such a gun. If you need to watch your pennies a bit more carefully, we suggest opting for less control and go for consistency. Some of the lower priced heat guns intended for stripping paint do this. You will need to work out the distance and time technique that works for your covering but at least you will be doing so with a gun that is producing a reliable temperature output. We have used the Black & Decker #9756 with good results. This has two temperature settings, 500F and 1000F. Read the safety instructions that comes with the unit. Work with the 500F setting at a good distance at first (say 15") and move the gun frequently until you get a feel for it. Generally the closer you get and/or the hotter the air coming out of the gun, the quicker you have to move the gun (less exposure time) to avoid overheating the covering.

 

1.9. VMAR - Covering - VCOTE2-3DS Information & Tips
1.9.1. VCOTE2-3DS - What is it?

VCOTE2-3DS is a proprietary 3D Detailing System engineered in Canada and used on our premium VMAR ARF models where scale detailing and a tough long lasting covering is essential! Rivets and some of the hatches and panel lines are actually 3D. They stand up on the surface skin like the real thing!

VCOTE2-3DS is totally different and simply the best covering and detailing system available. VCOTE2-3DS builds on our VCOTE technology and goes a lot farther. All the detailing is inside the covering... no decals, no strips, no stripes and totally fuel proof.

Best of all... VCOTE2-3DS is very very sag resistant. Extensively tested in direct sunlight and heated air up to 130F!

  • With VCOTE2-3DS the graphics are pre-applied to the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • VCOTE2-3DS utilizes a tough heat shrinkable film and our SURE SEAL system to ensure that the seams stay down!
  • VCOTE2-3DS is fuel proof. We recommend dabing up any raw unburned high nitro fuel as a precaution.

By pre-applying the the graphics... we've eliminated the need for decals or overlays completely and reduced the need for maintenance to a minimum. No decal or overlay edges to pick up, and very few seams. With VCOTE2-3DS you will have a great model that looks terrific right out of the box and spend more time flying and less time applying and reworking the covering!

VCOTE2-3DS 3D Detailing System - Only from VMAR!

 

1.9.2. VCOTE2-3DS - Care & Maintenance Tips

LIABILITY DISCLAIMER & COPYRIGHT NOTICE

LIABILITY DISCLAIMER

The authors and/or suppliers and/or disseminaters of this information and/or product expressly disclaim any warranties or representations, either expressed or implied, including but not limited to implied warranties of fitness, accuracy, timeliness or applicability of the information and/or product provided here. In no event will the authors and/or suppliers and/or disseminaters of this information and/or product have any obligation arising from contract or tort, for loss of revenue or profit, or for indirect, special, incidental, consequential or other damages of any sort arising from this information and/or product. In using this information and/or product, the user accepts all responsibility for and all liability associated with such use.

PROCEEDING WITH THE USE OF THIS INFORMATION AND/OR PRODUCT INDICATES AGREEMENT WITH AND ACCEPTANCE OF THE LIABILITY DISCLAIMER.
 
1.9.2.1. VCOTE2-3DS - Introduction - Care & Maintenance

 

VCOTE2-3DS - What is it?

VCOTE2-3DS is a proprietary 3D Detailing System engineered in Canada and used on our premium VMAR ARF models where scale detailing and a tough long lasting covering is essential! Rivets and some of the hatches and panel lines are actually 3D. They stand up on the surface skin like the real thing!

VCOTE2-3DS is totally different and simply the best covering and detailing system available. VCOTE2-3DS builds on our VCOTE technology and goes a lot farther. All the detailing is inside the covering... no decals, no strips, no stripes and totally fuel proof.

Best of all... VCOTE2-3DS is very very sag resistant. Extensively tested in direct sunlight and heated air up to 130F!

  • With VCOTE2-3DS the graphics are pre-applied to the covering... not stuck on top. No Decals! No Layers! No Strips! No Stripes!
  • VCOTE2-3DS utilizes a tough heat shrinkable film and our SURE SEAL system to ensure that the seams stay down!
  • VCOTE2-3DS is fuel proof. We recommend dabing up any raw unburned high nitro fuel as a precaution.

By pre-applying the the graphics... we've eliminated the need for decals or overlays completely and reduced the need for maintenance to a minimum. No decal or overlay edges to pick up, and very few seams. With VCOTE2-3DS you will have a great model that looks terrific right out of the box and spend more time flying and less time applying and reworking the covering!

VCOTE2-3DS 3D Detailing System - Only from VMAR!

 

1.9.2.2. VCOTE2-3DS - Care & Maintenance - Quick Tips

Question: Do you have any pointers regarding the Care & Maintenance of VCOTE2 - 3DS?

Answer: Yes we have this Summary of Quick Tips and at www.richmondrc.com ( Enter Site > Support > Knowledge Base then Search on "Covering") we have an expanded explanation for each of these Tips.

VCOTE2 - 3DS is a proprietary covering system engineered in Canada & available only from VMAR. Please note that VCOTE2 - 3DS is NOT Monokote or Solarfilm, its different. As with any new modern technology, the maintenance methods may be different than those you used with your older covering so its important to read the Tips over FIRST. Whatever you want to do with VCOTE2 - 3DS, test it on a small out of the way area first.

Here is our Summary of Quick Tips related to VCOTE2 - 3DS covering.

  • Avoid Hot Vehicles
    • Cooking your model in your vehicle for hours on end is generally not a good idea! Temperatures can easily exceed 50C (122 F) under such conditions. You will get sags. Consult our Knowledge Base before attempting to remove sags.  
  • Cleaning After Flying
    • We recommend Fantastic household cleaner and disposable paper towels. Mist, do not flood. Wipe along seams, not across. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials for cleaning a model airplane.
  • Cleaning Initially
    • Upon initial inspection if you see a thin streaky film on any of the VCOTE2 - 3DS, work outdoors and after testing first on a small out of the way area, use a paper towel and wipe a slightly wet film of Alcohol over 1/4 of a wing or half a fuselage at a time. Rub gently while still wet. Change towels frequently. Avoid plastics.
  • Cutting
    • Use sharp scissors or an XACTO knife with a sharp #11 blade.
  • Protecting the Finish
    • Most Importantly - Follow the cleaning instructions. Use the recommended cleaners and method. Avoid raw fuel with nitro content higher than 15%. Dab away all raw fuel regardless of nitro content. Test a small out of the way area and all plastics first before applying any glue, solvent, cleaner, paint or other preparation. Patch punctures promptly. Avoid hours and hours sitting the direct sun.
  • Removing & Using Tape
    • Use low tack tape. When removing, peal tape back on itself so that the pulling is parallel to the surface of the covering.
  • Repairing Punctures
    •  Patch promptly. Clean any oil residue from the area of the puncture. Patch should be 1/2" (13 bigger) on all sides. Round the corners. Seal in place with a heat iron & sock. Tighten area with a heat gun.
  • Resealing Seams
    • Act promptly. Clean any oil residue from the area and reseal the seam with thin CA.
  • Tightening Sags
    • Remember SSB... SECURE the perimeter then SHRINK to fit then BOND to the structure. Use a heat gun and soft cotton cloth or glove and hand pressure to SECURE the perimeter, use a heat gun to SHRINK within the perimeter, use a soft cloth while the covering is warm to BOND the covering to solid substrates. Consult our Knowledge Base for further information.
  • Tools for Working with VCOTE2 - 3DS
    • Scissors, XACTO with #11 blade, iron, iron sock, regulated heat gun, soft cotton cloth or glove.  

 

1.9.2.3. VCOTE2-3DS - Avoid Hot Vehicles parked in the Sun

Question: I inadvertently left my model locked in my closed van all afternoon in the hot desert sun? Will this have any effect on the VCOTE2-3DS covering?

Answer: Nothing permanent but you will likely have some sagging at least the first and second time you do this. Generally not a good idea. Temperatures can easily exceed 50C (122 F) under such conditions and if your model is stuck in this environment with no circulation for hours and hours, sagging is often the result.

We recommend avoiding this type of problem. Keep the model out of situations where the temperature is extreme with little or no circulation.

If it has occurred, there is no point in crying over spilt milk...  if you see sagging, don't panic! BEFORE you do anything at all, please review the Tip on Tightening VCOTE2-3DS.  Sagging is fixable (a whole model can be done in less than an hour) but only if you go about it properly. If you jump into this with your heat iron and heat gun assuming you know how to do this because you've fixed Monokote sags and bubbles for years, you have a high probabilty of making a botch of this and you will be stuck with a rather unpleasant result.

 

VCOTE - How to Tighten Sags

Question: My model is covered with VCOTE and I have noticed that there are some sags in the covering. What is causing this? Can I fix it? What should I do?

Answer: It helps to understand how the sags develop before we get into tightening things up to get rid of the sags.

In low humidity air such as is found in the hot desert areas or in continental winter conditions where cold outside air is brought inside and heated to 22C ( 70F), the underlying structure is drying and shrinking. Many modelers feel that the sags are caused by heat and to a point they are correct because hot conditions are often dry and most definitely heat is the key to solving the problem. However, the real underlying cause is low humidity air drying the structure out and as the structure drys it gets lighter and smaller. VCOTE will not shrink at normal room temperatures and you end up with,  in effect,  more covering on your model than you need!

The way to get rid of the sags is to shrink the VCOTE with a heat gun and rub it down into the substrate with a soft cloth once it has shrunk. Before you start firing up your flame thrower, please note the following procedure... if you get the method down pat, you will get a good result and not have to do this more than 1-2 times... 3 times at most. However if you assume that VCOTE is like Monokote or SolarFilm, you will make a hash of it and you will not be happy with the outcome. VCOTE is a thermal shrink film  and the technique for shinking it is similar to that used for ORACOVER (ULTRACOTE) without the use of a heat iron.

Remember SSB! As in 

SECURE the perimeter.

SHRINK to fit

BOND to the structure.

To tighten VCOTE, use a heat gun only. Do not use a heat iron. First, SECURE the perimeter by sealing and bonding the seams, edges and around perimeters. Use a heat gun set at around 225F and a soft cotton cloth or glove. Heat the perimeter edge in stages, just warm up a small area and then  press the warm covering down firmly with a soft cotton cloth to bond the perimeter of the covering to the underlying substrate. Do not overheat or the edge will pull back as the material shrinks. Always rub along seams, not across the seam. Higher temperatures may assist with complex curved surfaces. Avoid using more heat than required to prevent bubbles from forming beneath the covering or edges pulling back as the material shrinks. Remember you are just SECUREing the perimeter at this point. Be patient and work systematically starting with a small out of the way area first to gain experience.

AFTER SECURING the perimeter, SHRINK the interior areas to fit, using a heat gun set at around 225K. Heat about 1 square foot of area at a time, shrink the covering to fit and then rub the warm covering down firmly with a soft cotton cloth to BOND the covering to the underlying substrate. Over open bays heat the VCOTE until it is warm and sags slightly then remove the heat and the VCOTE will shrink tight over the open bay. Try this repeatedly until the covering over the open bay is tight. Higher temperatures may assist with complex curved surfaces. DO NOT APPLY EXTENSIVE HEAT NEAR EDGES & SEAMS. Always practise on the bottom of a less noticable section first. Be patient and work systematically. You will likely only have to tighten VCOTE once or twice to accomodate any shrinkage of the airframe in dry hot conditions.

To prevent or at least minimize the occurence of sags do not leave your model in a closed car parked in the sun. Here is some information that may help you avoid this problem.

1.9.2.4. VCOTE2-3DS - Cleaning After Flying

Question: I have been flying my model using a glow or gasoline engine. I have some oil residue on the model along with some bug guts and a bit of dirt from a less than perfect landing. How do I clean it up?

Answer:  To clean VCOTE2-3DS after flying we recommend Fantastic household cleaner and disposable paper towels. You can use other similar cleaners but avoid cleaners with solvents or abrasives. It is a good idea to always test a small out of the way spot first. Wipe along seams, not across. To really show off your VCOTE2-3DS covering, after cleaning wtih Fantastic... use a bit of Armorall and buff dry & shiny.

Please carefully review the following information and take particular note if you are planning on using Simple Green, 409 or similar non-approved cleaners.

VMAR - Cleaning Model Aircraft

Question: I have a VMAR ARF model aircraft. What should I be aware of when cleaning it after flying?

Answer: Couple of general suggestions here and a few DO NOT DO caveats. See the additional information below for more details. We recommend Fantastic household cleaner and you can dilute it 50/50 with water. Always test any cleaner on a small out of view area first. Avoid overspray on plastics. Spray cleaner lightly (do NOT flood) and wipe away cleaner and dirt/oil with disposable towels as soon as possible after spraying. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane.

Additional Information: VMAR models are covered in V-Cote, POLYCOTE ECS and VCOTE-2 3DS. All of these materials are heat shrink film. V-Cote is flatter in gloss and tolerates up to 15% nitro fuel well. Higher nitro fuel can soften V-Cote graphics if allowed to sit on the surface for extended periods of time. POLYCOTE ECS is higher in gloss. VCOTE-2 3DS has a medium gloss and has 3D indentations for some panel lines and rivets. POLYCOTE and VCOTE-2 3DS can tolerate high nitro fuels and other fuel types. Always wipe away raw fuel quickly in any event.

All of these covering materials clean well with Fantastic and many other household cleaners. We recommend Fantastic diluted 50/50 with water. Always test on a small out of view area first when working with any cleaner. Do NOT flood or over spray. Avoid spraying directly on plastic components and canopies. Wipe away cleaner and residue immediately after spraying with cleaner using disposable paper towels. 

Do NOT NOT NOT use SIMPLE GREEN, 409 or similar materials to clean a model airplane. Simple Green and 409 are good products for cutting grease and other industrial/commercial type applications but they are intended for use on non-porous materials and contain powerful chemicals that are not compatible with adhesives, balsa wood and other material found in a model aircraft. Use a web search engine to search on Simple Green and/or 409 and note the warnings and chemicals appliable to these and similar products. Do NOT NOT NOT use other cleaners having similar chemicals to those found in Simple Green or 409.

Here is a link to information related to 409: http://www.biosci.ohio-state.edu/~jsmith/MSDS/FORMULA%20409%20CLEANER.htm

What can SIMPLE GREEN, 409 and similar cleaners do to your model? Well... it depends. If you are not concerned about the safety aspects of these products and spray these materials on a paper towel and then use the damp towel to wipe down your model (avoid plastics) these products seem to do a good job of cutting grease and cleaning the model and many modelers like these cleaners. However, if you spray the material on to the model rather than the towel, you run the risk of the cleaner running into seams, cavities, hinge slots, covering joints and onto plastic components etc. These type of cleaners are intended for non-porous materials and if they wick or run into adhesive joints, hinge slots or under covering they can loosen the covering (this has been going on for years and modelers sometimes fight back with CA on the joint) AND react with some adhesives to soften and weaken the bond. We have also seen these type of cleaners react with adhesive commonly used to glue hinges and canopies into place and leave an ugly looking dark green stain under the covering where it has wicked further into the wooden substrate. This cannot be repaired and will continue to spread if more Simple Green, 409 or similar cleaner finds its way into the same area. We have also seen these type of cleaners attack plastic... generally the plastic does not dissolve or soften, instead it gets dry, hard, brittle and will over time crack and flake off.

In summary it would be best to use the cleaner and the techniques we recommend. If you are fond of your particular cleaner then at least make sure you follow the techniques we have outlined above. Test first. Do not flood or overspray. Wipe away quickly. Best to spray on the towel rather than the model. Make sure no cleaner can get into the model substrate such as the balsa or plywood materials... stay away from hinge slots, seams, cavities, joints, adhesive bonds etc. Protect plastics from direct contact with cleaners and/or long term exposure to cleaners.

Related Articles:

For each type of covering we use, there may be additional articles related to cleaning that particular covering. To check for Related Articles please use the Search tool near the top left of the Knowledge Base window and search on the word "Clean". Type just the letters Clean (clean) into the search box and then click on the button marked Search. The search tool will return a list of articles having "Clean" in the header or body. We suggest reviewing the articles related to the covering on your particular model.

 

1.9.2.5. VCOTE2-3DS - Cleaning Initially

Question: I have my model all assembled and have a few streaks or other residue on the VCOTE2-3DS covering. How do I clean these off.

Answer:  VCOTE2-3DS has very few seams and we use our SURE SEAL system to really lock the seams down. Upon initial inspection if you see a thin streaky film on any of the covering when looked at under bright light this is a residue from the SURE SEAL process. Use alcohol with a paper towel and wipe the residue away. VCOTE2-3DS and the graphics detailing are resistant to alcohol but it is always a good idea to test alcohol or any other cleaner or solvent you are using on a small out of the way area first! Change towels frequently. If you want to accentuate the gloss of VCOTE2-3DS even more, use a bit of Armorall and buff shiny with a clean paper towel. Test the Armoral on a small out of the way area first! Discard all soiled paper towels into a metal garbage can stored outdoors.

 

1.9.2.6. VCOTE2-3DS - How to Cut.

Question: VCOTE203DS is tough stuff! How do I cut it?

Answer: VCOTE2-3DS is made from a thermally reactive film. Where possible, use scissors to cut VCOTE2-3DS. Scissors work well. Otherwise use a new sharp #11 Blade. The blade must be SHARP.

 

1.9.2.7. VCOTE2-3DS - Protecting the Finish - What should I do?

Question: I've been flying my VMAR model for a while and it looks great. Is there anything that I need to do protect the finish to ensure it lasts.

Answer: VCOTE2-3DS is pretty tough stuff and does not need kid glove handling. If you do the following you should get good durability for the life of the model.

  • Most Importantly - Follow the Cleaning instructions. Use the recommended Cleaners and Method.
  • Secondly, remove raw fuel from the finish as soon as possible. Dab it off gently and then clean with Fantastic.
  • Test anything you apply to any covering, plastic or component. It's a good idea to assume that whatever is made there is something that can attack it. Test any glue, paint, cleaner, sealer, wax or anything else you may feel inclined to try on your model by applying the material to a small out of the way area first. If you get a reaction, a small blemish is better than having your canopy curl up or the covering turn black overnight. We've run into some very strange situations over the years... 99.9% of these would have been avoided by testing first.
  • Avoid hours and hours sitting in the direct sun. UV light can play hell with pigments especially dark colors and flourescents. This does not mean you need to go around covering your model every 15 minutes but if you can get it out of the sun after a few hours we would suggest that's a good way to go.
  • Patch holes and tack down any loose seams as soon as possible after the problem is noticed.

That's about it. Nothing to really sweat over... basically common sense.

 

1.9.2.8. VCOTE2-3DS - Removing & Using Tape

Question: Some of my control surfaces have arrived from the factory with tape holding them in place during shipment. Is there a correct method for removing the tape.

Answer: When removing tape from VCOTE2-3DS (or any covering for that matter), peal the tape back on itself so that the pulling is parallel to the surface of the covering. If the tape is near or across a seam or an edge, peal towards the edge or seam. Do NOT pull the tape up at right angles to the covering or away from a seam or edge.

If you use your own tape during the assembly process, use a low tack masking tape and remove it using the procedure noted above.

 

1.9.2.9. VCOTE2-3DS - Repairing Punctures - How to Patch.

Question: I have a puncture in my VCOTE2-3DS.  How do I patch this?

Answer:  If you puncture VCOTE2-3DS, thoroughly clean any oil residue from the area of the puncture. We clean using Fantastic and a paper towel. Once you have all the oil residue removed, wipe the area again with a fresh clean towel moistened with water or plain alcohol. The patch should be 1/2" (13 mm) bigger than the hole on all sides.

It may be difficult to match colors or patterns. When you run into this challenge, you might want to take a different approach. Rather than try to match the color or pattern, deliberately use a black white or silver patch and cut it into the shape of a panel hatch. Detail this with lettering and a perimeter line and it will look like the hatch is supposed to be there. Another trick is to cut the patch into a shape of a letter, flag or aircraft marking.

We recommend using after market VCOTE2-3DS patch material.You can also use polyester covering such as POLYCOTE, ULTRACOTE or ORACOVER. Monokote or SolarFilm covering material will also work. Cut the patch with rounded corners. Seal the patch in place with a heat iron and sock set at 225F first and then tighten the patch and the original covering around the patch using a heat gun as outlined in the tightening section above. To repair larger more extensive damage areas, you may wish to obtain the appropriate VCOTE2-3DS covering set for this model.

 

1.9.2.10. VCOTE2-3DS - Repairing Splits - How to.

Question: I appear to have a split in my VCOTE2-3DS covering.  What should I do?

Answer: VCOTE2-3DS is first painted by hand and the a final overcoat of polyurethane is applied to seal the covering and paint. 
 
If a small split has occurred in the covering substrate layer during production it will have been painted and sealed with polyurethane. No further work is required unless you can see bare wood through the split in the covering.
 
If bare wood is visible through the split in the covering, the split occurred after production, likely in shipping or thereafter. Thoroughly clean any oil residue from the area of the split. We clean using Fantastic and a paper towel. Once you have all the oil residue removed, wipe the area again with a fresh clean towel moistened with plain alcohol. Using a clean towel, press down gently on either side of the split to ensure the covering is well bonded to the wood beneath.
 
Seal the exposed wood with ZAP/CA (pink bottle, thin). Use a small amount only and allow it to wick into the wood and under the edges of the covering on either side of the split. Let the ZAP/CA cure. DO NOT ACCELERATE.
A small split that is not overly noticeable to the eye is probably not worth further effort beyond sealing the wood. If you wish to try to "hide" the split, it may be difficult to match colors or patterns. When you run into this challenge, you might want to take a different approach. Rather than try to match the color or pattern, deliberately use a black, white or silver patch and cut it into the shape of a panel hatch. Detail this with lettering and a perimeter line and it will look like the hatch is supposed to be there. Another trick is to cut the patch into a shape such as a letter, flag or aircraft marking.

We recommend using after market VCOTE2-3DS patch material.You can also use polyester covering such as POLYCOTE, ULTRACOTE or ORACOVER. Monokote or SolarFilm covering material will also work. Cut the patch about 1/2 inch (12 mm) larger than the minimum necessary and cut it with rounded corners. Seal the patch in place with a heat iron and sock set at 225F first, and then only if necessary, tighten the patch and the original covering around the patch using a heat gun as outlined in a related article about tightening. Be cautious with the amount of heat that you apply, you do not want to end up turning a small problem into a larger one! To repair larger more extensive damage areas, you may wish to obtain the appropriate VCOTE2-3DS covering set for your model.

 

1.9.2.11. VCOTE2-3DS - Seam Loose - How to Reseal.

Question: One of the seams on my model has come loose. What have I done wrong? What should I do to reseal it?

Answer: Although we are very careful to tack all seams down and then to seal them as well, we are not perfect (although we're trying!) so the loosening of a seam may not be due to anything you are doing. Once a seam is in place properly we advise being very careful when cleaning the model to avoid wiping across the seam... wipe parallel to it. There are very few seams on VMAR models.

Generally seams are located at:

  • The trailing edge of the wing (hidden by the aileron),
  • The leading edge of the wing if swept or tapered,
  • The leading and trailing edge of the horizontal stabilizer,
  • 1 or more seams on the bottom of the fuselage,
  • Some models with shaped turtle decks may have a seam at the top of the fuselage running more or less along the spine.

If you do have a loose edge, clean any oil residue from the area and the edge and reseal with thin CA.

 

1.9.2.12. VCOTE2-3DS - How to Tighten Sags

Question: My model is covered with VCOTE2-3DS and I have noticed that there are some sags in the covering. What is causing this? Can I fix it? What should I do?

Answer: It helps to understand how the sags develop before we get into tightening things up to get rid of the sags.

In low humidity air such as is found in the hot desert areas or in continental winter conditions where cold outside air is brought inside and heated to 22C ( 70F), the underlying structure is drying and shrinking. Many modelers feel that the sags are caused by heat and to a point they are correct because hot conditions are often dry and most definitely heat is the key to solving the problem. However, the real underlying cause is low humidity air drying the structure out and as the structure drys it gets lighter and smaller. VCOTE2-3DS will not shrink at normal room temperatures and you end up with,  in effect,  more covering on your model than you need!

The way to get rid of the sags is to shrink the VCOTE2-3DS with a heat gun and rub it down into the substrate with a soft cloth once it has shrunk. Before you start firing up your flame thrower, please note the following procedure... if you get the method down pat, you will get a good result and not have to do this more than 1-2 times... 3 times at most. However if you assume that VCOTE2-3DS is like Monokote or SolarFilm, you will make a hash of it and you will not be happy with the outcome. VCOTE2-3DS is a thermal shrink film  and the technique for shinking it is similar to that used for ORACOVER (ULTRACOTE) without the use of a heat iron.

Remember SSB! As in 

SECURE the perimeter.

SHRINK to fit

BOND to the structure.

To tighten VCOTE2-3DS, use a heat gun only. Do not use a heat iron. First, SECURE the perimeter by sealing and bonding the seams, edges and around perimeters. Use a heat gun set at around 225F and a soft cotton cloth or glove. Heat the perimeter edge in stages, just warm up a small area and then  press the warm covering down firmly with a soft cotton cloth to bond the perimeter of the covering to the underlying substrate. Do not overheat or the edge will pull back as the material shrinks. Always rub along seams, not across the seam. Higher temperatures may assist with complex curved surfaces. Avoid using more heat than required to prevent bubbles from forming beneath the covering or edges pulling back as the material shrinks. Remember you are just SECUREing the perimeter at this point. Be patient and work systematically starting with a small out of the way area first to gain experience.

AFTER SECURING the perimeter, SHRINK the interior areas to fit, using a heat gun set at around 225K. Heat about 1 square foot of area at a time, shrink the covering to fit and then rub the warm covering down firmly with a soft cotton cloth to BOND the covering to the underlying substrate. Over open bays heat the VCOTE2-3DS until it is warm and sags slightly then remove the heat and the VCOTE2-3DS will shrink tight over the open bay. Try this repeatedly until the covering over the open bay is tight. Higher temperatures may assist with complex curved surfaces. DO NOT APPLY EXTENSIVE HEAT NEAR EDGES & SEAMS. Always practise on the bottom of a less noticable section first. Be patient and work systematically. You will likely only have to tighten VCOTE2-3DS once or twice to accomodate any shrinkage of the airframe in dry hot conditions.

To prevent or at least minimize the occurence of sags do not leave your model in a closed car parked in the sun. Here is some information that may help you avoid this problem.

VCOTE2-3DS - Avoid Hot Vehicles parked in the Sun

Question: I inadvertently left my model locked in my closed van all afternoon in the hot desert sun? Will this have any effect on the VCOTE2-3DS covering?

Answer: Nothing permanent but you will likely have some sagging at least the first and second time you do this. Generally not a good idea. Temperatures can easily exceed 50C (122 F) under such conditions and if your model is stuck in this environment with no circulation for hours and hours, sagging is often the result.

We recommend avoiding this type of problem. Keep the model out of situations where the temperature is extreme with little or no circulation.

If it has occurred, there is no point in crying over spilt milk...  if you see sagging, don't panic! BEFORE you do anything at all, please review the Tip on Tightening VCOTE2-3DS.  Sagging is fixable (a whole model can be done in less than an hour) but only if you go about it properly. If you jump into this with your heat iron and heat gun assuming you know how to do this because you've fixed Monokote sags and bubbles for years, you have a high probabilty of making a botch of this and you will be stuck with a rather unpleasant result.

 

1.9.2.13. VCOTE2-3DS - Tools - For working with VCOTE2-3DS

 

VMAR - Covering - Tools - Recommended

Question: What would you recommend in the way of tools for working with Covering materials?

Answer: Here's a list of what we would suggest:

  • A pair of sharp scissors
  • An Xacto Knife with a SHARP #11 Blade
  • A Heat Iron with controllable temperature (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Iron Sock (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Gun with controllable consistent output temperature
  • A soft cotton cloth or glove.

Please note that the heat gun is particularly important. Unfortunately the standard RC covering heat gun has been driven down in price so that it is selling at times for usa$14.95-19.95. We say unfortunately because at that price we are getting exactly what we are paying for... a pretty crude unregulated heat producer. Even a decent hair dryer costs more!

Most of these low end RC covering heat guns do not monitor the heat coming out of the nozzle. They have a heating element that heats the air sucked into the back of the gun and a fan that blasts it out the front. The vanes at the back of the gun have a very limited effect on the output temperature. So... if you take a 1000 watt gun for example, and heat air that is at 50F flowing into the back of gun you get a fixed amount of temperature increase... lets say 350F and the outflowing air is at 50+350=400F. Now run the same gun with ambient air of 75F flowing into the back of the gun and the same 1000W of energy will increase this 75F air by 350 degrees to 425F. So depending on the ambient air temperature you get a different output temperature. To add to the confusion somewhat, adding a fixed amount of energy to dry air (low humidity) will change the temperature of the air more than if you add if you add the same amount of energy to moist (high humidity) air. This variation in output temperature due to changes in the ambient air and ambient humidity makes it very difficult to work out a reliable consistent technique when you are working with heat shrink covering. One day you get a "feel" for the right amount of heat, time and distance and everything goes great. The next day or a month later you try this with a different ambient air temperature and/or different humidity and your technique does not work... why? Because the temperature of the air flowing out of the gun has changed without you being aware of it.

What can you do about this to make your covering technique more consistent? Well sadly to say you either have to live with this problem or you have to dump the cheapy RC covering heat gun and get a heat gun that measures and controls the consistency of the temperature of the air flowing out of the gun.

There are a number of heat guns for shrinking heat shrink tubing that work well. They can be rather expensive but give you good control over the temperature you want AND hold that temperature consistently regardless of ambient temperature and humidity. It's nice to be able to select the temperature if you've got the cash to buy such a gun. If you need to watch your pennies a bit more carefully, we suggest opting for less control and go for consistency. Some of the lower priced heat guns intended for stripping paint do this. You will need to work out the distance and time technique that works for your covering but at least you will be doing so with a gun that is producing a reliable temperature output. We have used the Black & Decker #9756 with good results. This has two temperature settings, 500F and 1000F. Read the safety instructions that comes with the unit. Work with the 500F setting at a good distance at first (say 15") and move the gun frequently until you get a feel for it. Generally the closer you get and/or the hotter the air coming out of the gun, the quicker you have to move the gun (less exposure time) to avoid overheating the covering.

 

1.9.3. VCOTE2-3DS - Painting Tips

Question: I want to add some additional graphics to my VMAR ARF model using paint. The model I have is covered in VCOTE2 - 3DS. Can you give me any tips on painting VCOTE2 - 3DS?

Answer: Yes we can. Here are some tips:

  1. Please thoroughly review  the articles included below.
  2. Resolve any issues related to punctures, sags, seams etc BEFORE painting. The material to be painted must be tight, secure, clean and in a good state of repair before applying any paint.
  3. After carefully maintaining & cleaning the material to be painted, select a small out of sight area to test. Do NOT assume that your paint is compatible with any covering material, plastic or component without testing first.
  4. If the paint is to be applied to plastic or covering, use fine steel wool or very very fine wet/dry sandpaper (400+ grit) to buff out the gloss from the factory finish on the test area. All paints will stick better if the underlying surface has been cleaned and "de-glossed". Remember this is a test, do not work with a large area until you test first!
  5. Vaccuum or use a clean tack cloth to remove any sanding dust from the test area.
  6. We suggest trying a PolyUrethane based spray paint. Follow the paint instructions, cautions & warnings. Pay particular attention to health warnings, hazards & requirements for ventilation. Unless the paint instructions specifically state otherwise, work in a dry area at room temperature and build up the paint layer slowly. Do not flood. Mist a partial first coat onto the test area, let it set up according to the instructions on the can and then build up the first coat so that it is more or less opaque (solid). If you cannot get an opaque first coat without flooding, stop and plan on applying a second coat later.  
  7. Please note that most paints specifically state how they should be applied and how long to wait before attempting to apply a second or third coat.
  8. As you are applying the first coat and for at least 24 hours after applying the first coat, watch the paint and underlying material for any adverse reaction. If the paint or the underlying material bubbles, blisters, wrinkles, sags or otherwise reacts adversely, stop applying paint immediately. Remember the purpose of testing a small area is to work out the technique AND to avoid inducing damage to your model. If the test is a failure, do not continue!
  9. If the testing produces a good result, after 24 hours, test for adhesion of the paint to the underlying material (substrate). A good test is to use low tack masking tape pulled back upon itself. If the paint has not adhered well to the substrate, you will likely have to choose a different paint type or method. Primers and etches may be needed. Further research and testing will be required.
  10. Test that the paint stands up OK to your type of fuel and your cleaning solution.
  11. Provided that all your testing turns out successfully, you can then move forward with painting the area you have in mind. Always avoid flooding and always stop painting if you detect any adverse reactions.
  12. Following the application of your paint layers, you may wish to overspray the new paint with a clear protective layer of similar paint type to help seal and protect the color coat. Again, review the instructions that come with the paint re applying second and subsequent coats. Test Test Test before going hog wild!

 

1.9.4. VCOTE2-3DS - Rivets (3D) - Are they Fuel Proof?
Question: My model is covered with VCOTE2-3DS. The 3D rivets are very authentic looking! Some of the rivet indentations appear to have punctured the covering all the way through leaving a very small hole at the center of their base. Should I be concerned about this? How about fuel proofing?

Answer:
Some of the 3D rivet indentations may have a very small hole in their center. These are then sealed with a small drop of CA at the factory before the entire model is factory overcoated with a clear coat sealer.
 
If you wish to be doubly sure about fuel proofing, for example in an area that is directly exposed to raw or burned fuel during operation, take a bottle of ZAP/CA with a microdropper tube and apply a drop of CA to any small holes that appear in the base of the 3D Rivets. This will apply yet another clear barrier and help to further ensure fuel proofing.
 
 
VCOTE2-3DS - Care & Maintenance - Quick Tips

Question: Do you have any pointers regarding the Care & Maintenance of VCOTE2 - 3DS?

Answer: Yes we have this Summary of Quick Tips and at www.richmondrc.com ( Enter Site > Support > Knowledge Base then Search on "Covering") we have an expanded explanation for each of these Tips.

VCOTE2 - 3DS is a proprietary covering system engineered in Canada & available only from VMAR. Please note that VCOTE2 - 3DS is NOT Monokote or Solarfilm, its different. As with any new modern technology, the maintenance methods may be different than those you used with your older covering so its important to read the Tips over FIRST. Whatever you want to do with VCOTE2 - 3DS, test it on a small out of the way area first.

Here is our Summary of Quick Tips related to VCOTE2 - 3DS covering.

  • Avoid Hot Vehicles
    • Cooking your model in your vehicle for hours on end is generally not a good idea! Temperatures can easily exceed 50C (122 F) under such conditions. You will get sags. Consult our Knowledge Base before attempting to remove sags.  
  • Cleaning After Flying
    • We recommend Fantastic household cleaner and disposable paper towels. Mist, do not flood. Wipe along seams, not across. Do NOT NOT NOT NOT use SIMPLE GREEN, 409 or similar materials for cleaning a model airplane.
  • Cleaning Initially
    • Upon initial inspection if you see a thin streaky film on any of the VCOTE2 - 3DS, work outdoors and after testing first on a small out of the way area, use a paper towel and wipe a slightly wet film of Alcohol over 1/4 of a wing or half a fuselage at a time. Rub gently while still wet. Change towels frequently. Avoid plastics.
  • Cutting
    • Use sharp scissors or an XACTO knife with a sharp #11 blade.
  • Protecting the Finish
    • Most Importantly - Follow the cleaning instructions. Use the recommended cleaners and method. Avoid raw fuel with nitro content higher than 15%. Dab away all raw fuel regardless of nitro content. Test a small out of the way area and all plastics first before applying any glue, solvent, cleaner, paint or other preparation. Patch punctures promptly. Avoid hours and hours sitting the direct sun.
  • Removing & Using Tape
    • Use low tack tape. When removing, peal tape back on itself so that the pulling is parallel to the surface of the covering.
  • Repairing Punctures
    •  Patch promptly. Clean any oil residue from the area of the puncture. Patch should be 1/2" (13 bigger) on all sides. Round the corners. Seal in place with a heat iron & sock. Tighten area with a heat gun.
  • Resealing Seams
    • Act promptly. Clean any oil residue from the area and reseal the seam with thin CA.
  • Tightening Sags
    • Remember SSB... SECURE the perimeter then SHRINK to fit then BOND to the structure. Use a heat gun and soft cotton cloth or glove and hand pressure to SECURE the perimeter, use a heat gun to SHRINK within the perimeter, use a soft cloth while the covering is warm to BOND the covering to solid substrates. Consult our Knowledge Base for further information.
  • Tools for Working with VCOTE2 - 3DS
    • Scissors, XACTO with #11 blade, iron, iron sock, regulated heat gun, soft cotton cloth or glove.  

 

1.10. VMAR - Covering - Tools - Recommended

Question: What would you recommend in the way of tools for working with Covering materials?

Answer: Here's a list of what we would suggest:

  • A pair of sharp scissors
  • An Xacto Knife with a SHARP #11 Blade
  • A Heat Iron with controllable temperature (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Iron Sock (on VCOTE or VCOTE2-3DS use only for applying patches)
  • A Heat Gun with controllable consistent output temperature
  • A soft cotton cloth or glove.

Please note that the heat gun is particularly important. Unfortunately the standard RC covering heat gun has been driven down in price so that it is selling at times for usa$14.95-19.95. We say unfortunately because at that price we are getting exactly what we are paying for... a pretty crude unregulated heat producer. Even a decent hair dryer costs more!

Most of these low end RC covering heat guns do not monitor the heat coming out of the nozzle. They have a heating element that heats the air sucked into the back of the gun and a fan that blasts it out the front. The vanes at the back of the gun have a very limited effect on the output temperature. So... if you take a 1000 watt gun for example, and heat air that is at 50F flowing into the back of gun you get a fixed amount of temperature increase... lets say 350F and the outflowing air is at 50+350=400F. Now run the same gun with ambient air of 75F flowing into the back of the gun and the same 1000W of energy will increase this 75F air by 350 degrees to 425F. So depending on the ambient air temperature you get a different output temperature. To add to the confusion somewhat, adding a fixed amount of energy to dry air (low humidity) will change the temperature of the air more than if you add if you add the same amount of energy to moist (high humidity) air. This variation in output temperature due to changes in the ambient air and ambient humidity makes it very difficult to work out a reliable consistent technique when you are working with heat shrink covering. One day you get a "feel" for the right amount of heat, time and distance and everything goes great. The next day or a month later you try this with a different ambient air temperature and/or different humidity and your technique does not work... why? Because the temperature of the air flowing out of the gun has changed without you being aware of it.

What can you do about this to make your covering technique more consistent? Well sadly to say you either have to live with this problem or you have to dump the cheapy RC covering heat gun and get a heat gun that measures and controls the consistency of the temperature of the air flowing out of the gun.

There are a number of heat guns for shrinking heat shrink tubing that work well. They can be rather expensive but give you good control over the temperature you want AND hold that temperature consistently regardless of ambient temperature and humidity. It's nice to be able to select the temperature if you've got the cash to buy such a gun. If you need to watch your pennies a bit more carefully, we suggest opting for less control and go for consistency. Some of the lower priced heat guns intended for stripping paint do this. You will need to work out the distance and time technique that works for your covering but at least you will be doing so with a gun that is producing a reliable temperature output. We have used the Black & Decker #9756 with good results. This has two temperature settings, 500F and 1000F. Read the safety instructions that comes with the unit. Work with the 500F setting at a good distance at first (say 15") and move the gun frequently until you get a feel for it. Generally the closer you get and/or the hotter the air coming out of the gun, the quicker you have to move the gun (less exposure time) to avoid overheating the covering.

 

POLYCOTE ECS - Tools - For working with POLYCOTE ECS