Louis Dionne
Jan 01, 1998, 12:00 AM
<p><big>What is the "Lost Foam" Technique?</big></p>
<blockquote>
<p>Everyone has its own preferred way of building; some like to carve balsa, some like to
bend sticks, some like to get deep in epoxy and polyester or foam and paper. There are
certainly a lot of different ways. The Lost Foam technique is just one of them. I will
present a bit of a description for this method. Maybe some day you will be tempted to try
it.</p>
<p>A related molding technique, called the Lost Wax Molding, has been in use for several
centuries. In the case of the Lost Wax, the wax is often used to build the second part of
the mold but during the process the wax is being replaced by metal in fusion. The wax in
the mold melts or evaporates upon contact of the hot liquid metal leaving space for the
metal to fill the mold. When the metal turn to solid, the mold is open and the metal piece
retrieved.</p>
<p>In the Lost Foam technique, the foam is the mold and you dissolve the foam (or just
part of the foam to keep more rigidity) when the piece is done to leave you with the
resulting part. In short, you carve the shape you want in foam, cover the foam shape with
layers of fiberglass and epoxy, and then get rid of the foam. It is used mostly for
fuselages and nacelles, but there is nothing preventing you from doing a hollow composite
wing this way.</p>
</blockquote>
<blockquote>
<p>Here are some advantages and disadvantages to consider:</p>
</blockquote>
<div align="center"><center>
<table border="0" cellpadding="5" cellspacing="0" width="80%">
<tr>
<td width="50%" valign="top"><div align="center"><center><table border="0" cellpadding="5" cellspacing="0" width="100%">
<tr>
<td><strong>Advantages</strong></td>
</tr>
<tr>
<td><ul>
<li>Easy to reproduce complex curves.</li>
<li>Fast</li>
<li>Sturdy and easy to repair. </li>
<li>Easy to paint on</li>
<li>No grain filling, no heat or solvent problems</li>
<li>Economical</li>
<li>Provides lots of internal room for components.</li>
</ul>
</td>
</tr>
</table>
</center></div></td>
<td width="10"></td>
<td width="50%" valign="top"><div align="center"><center><table border="0" cellpadding="5" cellspacing="0" width="100%">
<tr>
<td><strong>Disadvantages</strong></td>
</tr>
<tr>
<td><ul>
<li>Flimsy on flat areas</li>
<li>It's a one shot deal - the plug you create is destroyed with your attempt</li>
<li>Messier than traditional balsa construction.</li>
<li>No wood carving for the wood fanatics.</li>
<li>Can get heavy easily.</li>
<li>Compared to conventional fiberglass methods, the lost foam technique requires more work
to complete the finish.</li>
</ul>
</td>
</tr>
</table>
</center></div></td>
</tr>
</table>
</center></div>
<blockquote>
<p>Some may use polyester resins instead of epoxy, but because of the smell and appetite
for foam, I never used that. So I will only describe and talk about epoxy instead.</p>
<p>You will probably need only 1 layer over all with another layer of lighter glass in
high stress areas, if you use a heavy fiberglass cloth. You may also want to add carbon
fiber and/or kevlar in high stress areas.</p>
<p>Wear protective gloves when handling epoxy. Work in a well-ventilated area.</p>
<p>I use this technique when building scale curved fuselages. I decided to explore with
the Lost Foam technique after reading about it being used by several UK modelers on PSS
planes. I prefer to use this technique instead of wasting a lot of good balsa wood on a
design showing plenty of compound curves.</p>
<p>The Hurricane in the pictures is my second attempt at such a technique and gave decent
results. Much lighter than my first attempt. But still lots of space for improvement. The
Hurricane is 1/15 standoff scale and powered by an AP29 on 8 cells. The dark area on the
bare fuselage is where the microballoons stayed in a thicker layer.</p>
<p align="center"><img src="http://static.rcgroups.com/articles/ezonemag/1998/jan/lostfoam/avion002.jpg" width="320" height="240" alt="avion002.jpg (7992 bytes)"><br>
<small><strong>The finished fuselage for my Hurricane, created using the technique
described in this article.</strong></small></p>
<p> </p>
<p align="center"><small><strong><img src="http://static.rcgroups.com/articles/ezonemag/1998/jan/lostfoam/hurri005.jpg" width="306" height="165" alt="hurri005.jpg (10570 bytes)"><br>
The finished Hurricane.</strong></small></p>
<p>The technique is fairly simple and fast. I'll give a short description with additional
tips and improvements.</p>
</blockquote>
<p> </p>
<p><big>Mold-making and Fiberglass Lay-up</big></p>
<blockquote>
<p>1) Take a big chunk of dense foam - pink, gray or blue extruded foam are much easier to
carve and sand - to match the fuselage. I take junk pieces of foam and glue the pieces to
cover the fuselage outline. Then cut the side outline using a band saw, a scroll saw, a
carpet knife or a kitchen knife with small teeth. Complete the shaping and rounding by
rough cutting with the knife then sand to final shape - I use a dry wall sanding pad, this
is a mesh of abrasive material with plenty of holes where the foam crumbs can lodge
themselves instead of rolling and making dents in your foam. All this can be done in half
an hour or an hour.</p>
<p>2) Once satisfied with the accuracy and level of details, wrap the plug with one layer
of packing tape to prevent the epoxy from getting into the foam. Apply some wax to help
remove the tape later on - I will use Johnson floor wax next time.</p>
<p>3) If you want, you can mount it on a fixture with a nail at each end to hold the foam
core off the working table. You want to be able to rotate the core like a chicken on a
rotisserie so that you can work on all sides of it.</p>
<p>4) Apply one layer of thick fiberglass cloth - 2oz or 3oz - using 3M#77 spray to stick
before the epoxy is applied. Apply the cloth in 2" or 3" overlapping strips to
ease the placement. Make the strips as wide as will conform to the shape of the core. In
some areas, they may be quite narrow, and others quite wide.</p>
<p>5) Mix your epoxy per the manufacturer's recommendations. Then brush epoxy into the
glass, thoroughly saturating it.</p>
<p>6) Use toilet paper or paper towels to absorb as much of the epoxy as possible. Lay the
paper on a portion of the fuse. Press the paper onto the glass so that it absorbs epoxy.
Pull off the paper, being careful not to pull up glass cloth with it. Continue this
process until the paper can absorb no more epoxy.</p>
<p>7) Apply the number of layers needed to obtain the rigidity you want. I used a couple
of layers of medium grade cloth with additional layers in the nose and tail.</p>
<p>8) Let the epoxy harden for at least 24 hours if no more glass is to be applied. If
more glass is needed, apply it before 24 hours. You may want to rough up the surface with
sandpaper first.</p>
</blockquote>
<p> </p>
<p><big>Finishing</big></p>
<blockquote>
<p>1) After the epoxy has hardened, sand off the high spots and rough up the surface all
over.</p>
<p>2) Mix up a blend of epoxy and microballoons that is just liquid enough to be brushed
on, but no so fluid as to be runny. You want plenty of microballoons so that it will be
easy to sand. Other fillers that will stick to epoxy can be used. Just be sure they are
light in weight.</p>
<p>3) Brush the filler all over the fuse. Let it harden until it can be sanded. Don't let
it harden any longer than necessary, because it just makes it more difficult to sand.</p>
<p>4) Using sandpaper of decreasing roughness, sand all the mixture off, except what is
left in the hollows. One application may be enough to get a smooth surface, but you may
have to touch up a few areas.</p>
</blockquote>
<p> </p>
<p><big>Foam removal</big></p>
<blockquote>
<p>1) It is better to get rid the foam after all the sanding was done as the foam provides
a solid base to apply pressure. Now get the solvent out - I use acetone. Use a large
bucket to receive the soon to be dripping solvent (or your neighbor's lawn if you hate
him) in an area with excellent aeration. Open up an area of the fuselage where you will
pour the solvent - I use the wing opening in the fuselage. Pour a bit of solvent at a time
and let it dissolve the foam. You will be left with a bit of thick paste at the end; don't
worry. </p>
<p>2) Next, remove the packing tape; if you waxed it, pulling a corner from inside the
wing bay will have most of the tape extracted and leave a nice clean interior, bringing
with it the foam paste that was left.</p>
</blockquote>
<p> </p>
<p><big>Painting:</big></p>
<blockquote>
<p>1) Spray with gray, white or light gray (depending on the finish color you want) Krylon
primer or something similar. Wet sand almost all of it off. Repeat this until you are
happy with the surface smoothness.</p>
<p>2) If you make a sport model you can spray with one or two coats of Krylon fast dry
enamel. Silver Krylon makes for a very nice aluminum.</p>
</blockquote>
<p> </p>
<p><big>Tips</big></p>
<blockquote>
<ul>
<li>Remember that there is wax inside and that you will need to sand the places you want to
glue formers or reinforcements.</li>
<li>To be more accurate; make cardboard templates.</li>
<li>For boxy type fuselage a stick method would be faster and more rigid.</li>
<li>Apply your reinforcement (carbon fibers, kevlar cloth, etc) in the first layers, as you
don't want to have to sand those if they protrude.</li>
<li>I make my firewalls out of discarded PCB from work (RRR; Reduce, Reuse, Recycle) that I
have predrilled and glued to the plug's tape using 3M77 contact cement; the firewall is an
integral part of the completed fuselage.</li>
<li>I used 2" thick pink foam that was a bit narrower that the scale fuselage and
didn't bother to do the wing fairing on this first attempt at a scale airplane. Therefore
there is a fairly large flat area on the sides and these are not very stiff. Next time, I
will use balsa planking (1/32 or maybe 1/16) then add fiberglass to provide more rigidity
to the side.</li>
<li>You may find that the sanding has weakened a couple of spots on your final fuselage. You
can reinforce those up from the inside by applying patches of cloth soaked with epoxy.</li>
<li>If you make it flexible enough is will absorb energy much more and there will be less
destruction. A thicker fuselage will propagate the energy of a crash to the components
instead of absorbing it. On the other hand, a soft fuselage may bend or distort when
moving control surfaces at high speed.</li>
<li>Fiberglass is weaker on sharp corners. Round the foam plug a bit and add more
microballoons/epoxy paste to be able to carve/sand the sharp corner in the end.</li>
</ul>
</blockquote>
<p> </p>
<p><big>Sleeve Material</big></p>
<blockquote>
<p>One of my friends, Waid Reynolds, while attending the June Slope Jamboree at Richland,
camped at the Columbia River Park right next to a real nice guy named Jerold Converse. It
turned out that Jerry is an RC glider pilot living in Grand Coulee. He likes to scratch
build gliders, including using the lost foam technique to make his own fuselages. In
searching for better ways to build fuselages, he found that using sleeves of modern woven
materials over the foam fuse cores saved time and produced a stronger and prettier end
product compared to using strips of material to do the lay-up. He knew that other scratch
builders would like to do the same. But, sleeve material was expensive and difficult to
acquire from normal modeling sources. He searched out manufacturers who would sell sleeve
stock in relatively small quantities at reasonable prices. To make this material available
to the rest of us Jerry has started his own Web based business.</p>
<p>His Web based business, R/C COMPOSITES in Grand Coulee, Washington sells Biaxial Woven
Sleeves made from Fiberglass, Kevlar, Carbon fiber and Kevlar/Carbon fiber blend. The
material will expand 25 to 30% and contract 65 to 70%. It comes in various sizes and
weights (1/4" to 11" dia. and 5.9 oz./sq.yd. to 30.7 oz./sq.yd.).</p>
<p>Check out his home page at <a href="http://homepage.usr.com/c/composites">http://homepage.usr.com/c/composites</a>.</p>
</blockquote>
<hr>
<p>I like the technique and will use and improve on it. A B-25 on two SP400 with retracts
would be an interesting next candidate...</p>
<p>If you discover new tricks or just want to share ideas and projects, I can be reached
through email at <a HREF="http://rcgroups.com/shared/nospam.php?u=louis_dionne&d=truevision.com">louis_dionne(at)truevision.com</a>.
I will be glad to hear from you, in French or English.</p>
<p>Louis Dionne</p>
<p>Indianapolis, IN, USA
<blockquote>
<p>Everyone has its own preferred way of building; some like to carve balsa, some like to
bend sticks, some like to get deep in epoxy and polyester or foam and paper. There are
certainly a lot of different ways. The Lost Foam technique is just one of them. I will
present a bit of a description for this method. Maybe some day you will be tempted to try
it.</p>
<p>A related molding technique, called the Lost Wax Molding, has been in use for several
centuries. In the case of the Lost Wax, the wax is often used to build the second part of
the mold but during the process the wax is being replaced by metal in fusion. The wax in
the mold melts or evaporates upon contact of the hot liquid metal leaving space for the
metal to fill the mold. When the metal turn to solid, the mold is open and the metal piece
retrieved.</p>
<p>In the Lost Foam technique, the foam is the mold and you dissolve the foam (or just
part of the foam to keep more rigidity) when the piece is done to leave you with the
resulting part. In short, you carve the shape you want in foam, cover the foam shape with
layers of fiberglass and epoxy, and then get rid of the foam. It is used mostly for
fuselages and nacelles, but there is nothing preventing you from doing a hollow composite
wing this way.</p>
</blockquote>
<blockquote>
<p>Here are some advantages and disadvantages to consider:</p>
</blockquote>
<div align="center"><center>
<table border="0" cellpadding="5" cellspacing="0" width="80%">
<tr>
<td width="50%" valign="top"><div align="center"><center><table border="0" cellpadding="5" cellspacing="0" width="100%">
<tr>
<td><strong>Advantages</strong></td>
</tr>
<tr>
<td><ul>
<li>Easy to reproduce complex curves.</li>
<li>Fast</li>
<li>Sturdy and easy to repair. </li>
<li>Easy to paint on</li>
<li>No grain filling, no heat or solvent problems</li>
<li>Economical</li>
<li>Provides lots of internal room for components.</li>
</ul>
</td>
</tr>
</table>
</center></div></td>
<td width="10"></td>
<td width="50%" valign="top"><div align="center"><center><table border="0" cellpadding="5" cellspacing="0" width="100%">
<tr>
<td><strong>Disadvantages</strong></td>
</tr>
<tr>
<td><ul>
<li>Flimsy on flat areas</li>
<li>It's a one shot deal - the plug you create is destroyed with your attempt</li>
<li>Messier than traditional balsa construction.</li>
<li>No wood carving for the wood fanatics.</li>
<li>Can get heavy easily.</li>
<li>Compared to conventional fiberglass methods, the lost foam technique requires more work
to complete the finish.</li>
</ul>
</td>
</tr>
</table>
</center></div></td>
</tr>
</table>
</center></div>
<blockquote>
<p>Some may use polyester resins instead of epoxy, but because of the smell and appetite
for foam, I never used that. So I will only describe and talk about epoxy instead.</p>
<p>You will probably need only 1 layer over all with another layer of lighter glass in
high stress areas, if you use a heavy fiberglass cloth. You may also want to add carbon
fiber and/or kevlar in high stress areas.</p>
<p>Wear protective gloves when handling epoxy. Work in a well-ventilated area.</p>
<p>I use this technique when building scale curved fuselages. I decided to explore with
the Lost Foam technique after reading about it being used by several UK modelers on PSS
planes. I prefer to use this technique instead of wasting a lot of good balsa wood on a
design showing plenty of compound curves.</p>
<p>The Hurricane in the pictures is my second attempt at such a technique and gave decent
results. Much lighter than my first attempt. But still lots of space for improvement. The
Hurricane is 1/15 standoff scale and powered by an AP29 on 8 cells. The dark area on the
bare fuselage is where the microballoons stayed in a thicker layer.</p>
<p align="center"><img src="http://static.rcgroups.com/articles/ezonemag/1998/jan/lostfoam/avion002.jpg" width="320" height="240" alt="avion002.jpg (7992 bytes)"><br>
<small><strong>The finished fuselage for my Hurricane, created using the technique
described in this article.</strong></small></p>
<p> </p>
<p align="center"><small><strong><img src="http://static.rcgroups.com/articles/ezonemag/1998/jan/lostfoam/hurri005.jpg" width="306" height="165" alt="hurri005.jpg (10570 bytes)"><br>
The finished Hurricane.</strong></small></p>
<p>The technique is fairly simple and fast. I'll give a short description with additional
tips and improvements.</p>
</blockquote>
<p> </p>
<p><big>Mold-making and Fiberglass Lay-up</big></p>
<blockquote>
<p>1) Take a big chunk of dense foam - pink, gray or blue extruded foam are much easier to
carve and sand - to match the fuselage. I take junk pieces of foam and glue the pieces to
cover the fuselage outline. Then cut the side outline using a band saw, a scroll saw, a
carpet knife or a kitchen knife with small teeth. Complete the shaping and rounding by
rough cutting with the knife then sand to final shape - I use a dry wall sanding pad, this
is a mesh of abrasive material with plenty of holes where the foam crumbs can lodge
themselves instead of rolling and making dents in your foam. All this can be done in half
an hour or an hour.</p>
<p>2) Once satisfied with the accuracy and level of details, wrap the plug with one layer
of packing tape to prevent the epoxy from getting into the foam. Apply some wax to help
remove the tape later on - I will use Johnson floor wax next time.</p>
<p>3) If you want, you can mount it on a fixture with a nail at each end to hold the foam
core off the working table. You want to be able to rotate the core like a chicken on a
rotisserie so that you can work on all sides of it.</p>
<p>4) Apply one layer of thick fiberglass cloth - 2oz or 3oz - using 3M#77 spray to stick
before the epoxy is applied. Apply the cloth in 2" or 3" overlapping strips to
ease the placement. Make the strips as wide as will conform to the shape of the core. In
some areas, they may be quite narrow, and others quite wide.</p>
<p>5) Mix your epoxy per the manufacturer's recommendations. Then brush epoxy into the
glass, thoroughly saturating it.</p>
<p>6) Use toilet paper or paper towels to absorb as much of the epoxy as possible. Lay the
paper on a portion of the fuse. Press the paper onto the glass so that it absorbs epoxy.
Pull off the paper, being careful not to pull up glass cloth with it. Continue this
process until the paper can absorb no more epoxy.</p>
<p>7) Apply the number of layers needed to obtain the rigidity you want. I used a couple
of layers of medium grade cloth with additional layers in the nose and tail.</p>
<p>8) Let the epoxy harden for at least 24 hours if no more glass is to be applied. If
more glass is needed, apply it before 24 hours. You may want to rough up the surface with
sandpaper first.</p>
</blockquote>
<p> </p>
<p><big>Finishing</big></p>
<blockquote>
<p>1) After the epoxy has hardened, sand off the high spots and rough up the surface all
over.</p>
<p>2) Mix up a blend of epoxy and microballoons that is just liquid enough to be brushed
on, but no so fluid as to be runny. You want plenty of microballoons so that it will be
easy to sand. Other fillers that will stick to epoxy can be used. Just be sure they are
light in weight.</p>
<p>3) Brush the filler all over the fuse. Let it harden until it can be sanded. Don't let
it harden any longer than necessary, because it just makes it more difficult to sand.</p>
<p>4) Using sandpaper of decreasing roughness, sand all the mixture off, except what is
left in the hollows. One application may be enough to get a smooth surface, but you may
have to touch up a few areas.</p>
</blockquote>
<p> </p>
<p><big>Foam removal</big></p>
<blockquote>
<p>1) It is better to get rid the foam after all the sanding was done as the foam provides
a solid base to apply pressure. Now get the solvent out - I use acetone. Use a large
bucket to receive the soon to be dripping solvent (or your neighbor's lawn if you hate
him) in an area with excellent aeration. Open up an area of the fuselage where you will
pour the solvent - I use the wing opening in the fuselage. Pour a bit of solvent at a time
and let it dissolve the foam. You will be left with a bit of thick paste at the end; don't
worry. </p>
<p>2) Next, remove the packing tape; if you waxed it, pulling a corner from inside the
wing bay will have most of the tape extracted and leave a nice clean interior, bringing
with it the foam paste that was left.</p>
</blockquote>
<p> </p>
<p><big>Painting:</big></p>
<blockquote>
<p>1) Spray with gray, white or light gray (depending on the finish color you want) Krylon
primer or something similar. Wet sand almost all of it off. Repeat this until you are
happy with the surface smoothness.</p>
<p>2) If you make a sport model you can spray with one or two coats of Krylon fast dry
enamel. Silver Krylon makes for a very nice aluminum.</p>
</blockquote>
<p> </p>
<p><big>Tips</big></p>
<blockquote>
<ul>
<li>Remember that there is wax inside and that you will need to sand the places you want to
glue formers or reinforcements.</li>
<li>To be more accurate; make cardboard templates.</li>
<li>For boxy type fuselage a stick method would be faster and more rigid.</li>
<li>Apply your reinforcement (carbon fibers, kevlar cloth, etc) in the first layers, as you
don't want to have to sand those if they protrude.</li>
<li>I make my firewalls out of discarded PCB from work (RRR; Reduce, Reuse, Recycle) that I
have predrilled and glued to the plug's tape using 3M77 contact cement; the firewall is an
integral part of the completed fuselage.</li>
<li>I used 2" thick pink foam that was a bit narrower that the scale fuselage and
didn't bother to do the wing fairing on this first attempt at a scale airplane. Therefore
there is a fairly large flat area on the sides and these are not very stiff. Next time, I
will use balsa planking (1/32 or maybe 1/16) then add fiberglass to provide more rigidity
to the side.</li>
<li>You may find that the sanding has weakened a couple of spots on your final fuselage. You
can reinforce those up from the inside by applying patches of cloth soaked with epoxy.</li>
<li>If you make it flexible enough is will absorb energy much more and there will be less
destruction. A thicker fuselage will propagate the energy of a crash to the components
instead of absorbing it. On the other hand, a soft fuselage may bend or distort when
moving control surfaces at high speed.</li>
<li>Fiberglass is weaker on sharp corners. Round the foam plug a bit and add more
microballoons/epoxy paste to be able to carve/sand the sharp corner in the end.</li>
</ul>
</blockquote>
<p> </p>
<p><big>Sleeve Material</big></p>
<blockquote>
<p>One of my friends, Waid Reynolds, while attending the June Slope Jamboree at Richland,
camped at the Columbia River Park right next to a real nice guy named Jerold Converse. It
turned out that Jerry is an RC glider pilot living in Grand Coulee. He likes to scratch
build gliders, including using the lost foam technique to make his own fuselages. In
searching for better ways to build fuselages, he found that using sleeves of modern woven
materials over the foam fuse cores saved time and produced a stronger and prettier end
product compared to using strips of material to do the lay-up. He knew that other scratch
builders would like to do the same. But, sleeve material was expensive and difficult to
acquire from normal modeling sources. He searched out manufacturers who would sell sleeve
stock in relatively small quantities at reasonable prices. To make this material available
to the rest of us Jerry has started his own Web based business.</p>
<p>His Web based business, R/C COMPOSITES in Grand Coulee, Washington sells Biaxial Woven
Sleeves made from Fiberglass, Kevlar, Carbon fiber and Kevlar/Carbon fiber blend. The
material will expand 25 to 30% and contract 65 to 70%. It comes in various sizes and
weights (1/4" to 11" dia. and 5.9 oz./sq.yd. to 30.7 oz./sq.yd.).</p>
<p>Check out his home page at <a href="http://homepage.usr.com/c/composites">http://homepage.usr.com/c/composites</a>.</p>
</blockquote>
<hr>
<p>I like the technique and will use and improve on it. A B-25 on two SP400 with retracts
would be an interesting next candidate...</p>
<p>If you discover new tricks or just want to share ideas and projects, I can be reached
through email at <a HREF="http://rcgroups.com/shared/nospam.php?u=louis_dionne&d=truevision.com">louis_dionne(at)truevision.com</a>.
I will be glad to hear from you, in French or English.</p>
<p>Louis Dionne</p>
<p>Indianapolis, IN, USA