Lost Wax Instructors Notes: Difference between revisions
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'''Preamble''' | '''Preamble''' | ||
I have taught this a few times, and what follows seems to me the most efficient way to get the subject across. The class is broken up into two sections, and preferably these should be about three hours long and separated by as little time as possible. - Jim Bredt 20231223 | I have taught this a few times, and what follows seems to me the most efficient way to get the subject across. The class is broken up into two sections, and preferably these should be about three hours long and separated by as little time as possible. - Jim Bredt 20231223 | ||
'''What to tell the students''' | '''What to tell the students''' | ||
If they have a project they want to work on, tell them to bring it, if only for discussion purposes. For their fist mold though they should stick to something inside a 1" cubic envelope. | If they have a project they want to work on, tell them to bring it, if only for discussion purposes. For their fist mold though they should stick to something inside a 1" cubic envelope. | ||
Tell them to wear closed-toe shoes and natural fiber clothes. | Tell them to wear closed-toe shoes and natural fiber clothes. | ||
Tell them to bring their materials fee. | Tell them to bring their materials fee. | ||
Before the class | '''Before the class''' | ||
Make a set of molds and burn them out. I prefer a "Julia Child" method which | Make a set of molds and burn them out. I prefer a "Julia Child" method which |
Revision as of 20:21, 23 December 2023
Notes for Lost Wax Instructors
Preamble
I have taught this a few times, and what follows seems to me the most efficient way to get the subject across. The class is broken up into two sections, and preferably these should be about three hours long and separated by as little time as possible. - Jim Bredt 20231223
What to tell the students
If they have a project they want to work on, tell them to bring it, if only for discussion purposes. For their fist mold though they should stick to something inside a 1" cubic envelope. Tell them to wear closed-toe shoes and natural fiber clothes. Tell them to bring their materials fee.
Before the class
Make a set of molds and burn them out. I prefer a "Julia Child" method which
requires one mold per student, and possibly at least one extra as a back-up. If you
burn them out the night before the first class, you can have them hold at the preheat
temp (900-1100F) until class. If not, you will need to preheat the molds for 2-3
hours before class time.
The patterns don't matter much, but it's nice to send people home on the first day
with something nice. Look through the box of stored rubber molds and use the wax
injector to make several patterns.
Check to make sure all of the equipment is operational. Perform a vacuum check on
the casting machine: switch it on and put your thumb over the inlet hole. The gauge
should go to a full vacuum in 2-5 seconds. If it takes longer you may need to clean
out the oil filter inside the machine.
Make sure you have enough PPE for everybody, especially dust masks and plastic
gloves.
Setup for the first class
Set up waxworking tools: soldering pencils, knives, alcohol lamps. Also wax:
sprues and "sticky" wax are a must. Turn on the wax injector at least two hours
before class.
You will also want a set of clean flasks and rubber bases, one for each student. Metal: I used to make the first castings from scrap brass, which is in abundence
as of this writing. You may want to poll the students if they have preferred metals
they want to use. Budget 100-150 grams (bronze) per student.
Beginning lecture, 1 hour: Safety, Process, and Materials
(Probably the students will want to fuss with spruing their patterns during the
lecture. Be sure to call out the most important details, especially safety to make
sure you get the point across.)
Safety Eye protection is most important: it is good at the very start to put them in
the mind of the consequences of a steam explosion. Dust masks: Not just for the silica dust from the investment, warn of heavy
metal fume from the melt, especially zinc over molten brass. Also there is a pump oil
smog that is emitted by the casting machine. Gloves, Aprons: Remind them that the gloves aren't insulating Natural fiber clothes: If you spill molten metal onto polyester it turns to
napalm. Closed-toe shoes: Metal spills of any significant volume are very rare, but
the consequences are severe. Handling hot things: Things dont have to be glowing to be hot enough to
really cripple you. Use tongs. Assume everything on a hot-bench is hot unless you
know better. Test for temperature with the back of your hand.
Lost-wax process Patterns: Can be wax, 3DP plastic, or vegetable material. Some woody
materials leave ash, but frequently there isn't enough to cause problems. Slowest to
burn out is starch, which turns to charcoal during firing. Spruing: Usually a single length of wax rod that joins the pattern vertically
to the button on the rubber base. There are a few nuances: Join the sprues to a spot
on the pattern where you don't mind filing off and polishing the surface. In vacuum
casting metal flies (not flows) more or less in a straight line, so avoid sharp bends
wherever possible and avoid making metal flow uphill. Diameter of 3-5 mm is okay for
almost everything. Some materials are very difficult to bond to a wax sprue, so for them it is
prudent to bring a needle and some thread to stitch through the pattern and reinforce
the joint with the sprue. Woody patterns are quite buoyant in the investment, and
they can break free when the investment rises around them. There is additional
buoyancy during the vacuum stage. Investment: A powdered product that is mixed with water and then poured into
the flasks to embed the patterns. Draw a picture if you feel like. Castable and
resists the heat of molten metal. Mixture of gypsum and silica powder. Crystalline
silica is hazardous to breathe, and students need to work under the hood wearing a
dust mask. Explain scooping techniques to minimize dust evolution. After mixing the investemnt is degassed on the vacuum table under a bell jar.
This ensures a minimum of porosity on the surface of the mold cavity. Timing is very
important, all steps must be comleted before the investment sets up. If you find
there isn't enough time, the best way to slow down the cure is to mix with cold water.
Burnout: Mold is heated gradually to first evaporate moisture, then melt or
pyrolyze the pattern. The end result is dehydrated investment with a hollow cavity
that coincides with the shape of the original pattern plus the sprue. Temperature is
held at 300F to evaporate, 650F to pyrolyze stuff like nylon in 3D prints, and then
finally at 1350 F to remove all traces of wax residue and organic material. 2-3 hours
is acceptable hold time for 3" molds. Hold times increase as L^2 for larger molds. Preheat: For most molds, 1000-1100 F is quite satisfactory. Soak for 2-3
hours. In a pinch you can hold the mold at the maximum 1350 F and pour into that. If
you don't preheat you risk losing detail or having the metal freeze before the mold is
completely full. Strongly geometry dependent. Pour: Discuss the "Buddy" system for safety. Pournig metal is a two-person
operation. It doesn't have to be but you need two people there anyway in the unlikely
event that one of them has a debilitating accident. Molds are removed from the preheat oven in sequence and placed on the vacuum
table, vacuum is applied and molten metal is poured in. Metal should be melted as quickly as possible and poured as soon as it is
fully melted. You can hold a melt at temperature for up to an hour without much harm,
but the quality will degrade. De-invest: Wait until the metal has had a chance to cool in the mold for a
little while, but the mold is still hot. Grasp the mold with tongs and FULLY immerse
in a bucket of cool water to dispers the investment. Partial immersion results in
steam explosions. Hold under water until it stops making noise. Casting can then be
fished out. Remaining investemnt must be picked off or wire brushed, or removed in an
ultrasonic cleaner.
Pattern Materials Wax, resin: These are fully organic and burn out without leaving ash.
Generally these are molded or 3D printed, but you can carve them too. The word
"resin" covers a wide variety of materials, and some burn out more slowly than others.
Stuff like polypropylene and acrylic burn out very easily. Others like polyurethane
or nylon burn much more slowly. Stuff like epoxy is in the middle. Plants, wood, meat, etc: Very often these leave some inorganic residue. Most
plants leave a thin wisp of ash that can be blown out of a mold cavity provided the
sprue is big enough to allow it. Structural wood leaves a bit more ash. This is a
good time to show the chicken foot, which has cavities in the casting left by the
bones. For contrast show a pine-cone casting that although it has substantial ash, it
rarely leaves any visible defects in the castings.
Metals Precious metals: Gold, silver: these work well, and in fact the investment
is optimized for these metals. Argentium is a silver alloy with germanium. Stirling
is silver with 2.5% copper. Carat gold (below 24 ct) is alloyed with either silver,
copper, or both. Platinum can't be cast in the standard investment molds. Copper and alloys: Pure copper is poured at about 2000F, just at the
temperature limit of the electric melting furnaces. Alloys all melt at lower
temperatures. You want to pour at about 100F (or more) above the normal melting point
of the alloy. These data can be found elsewhere. Brass is copper plus zinc, "Ancient"
bronze is copper plus tin. Silicon bronze you can guess. Also found are nickel and
aluminum alloys. Copper alloys invariably contain lead, very often around 1-2%.
Another reason to handle it quickly. Aluminum metls at a relatively low temeprature but it is actually somewhat
challenging to cast. Aluminum typically has a higher viscosity and a higher surface
tension than other metals described above, so you need to sprue it rather generously. Pewter, "White" metal: Alloys incorporating tin, zinc, bismuth, antimony,
lead, and often silver. These pose no problems in lost-wax casting. Don't bother
preheating the molds. Ferrous alloys: Incompatible with our gypsum-based investment.
Gypsum Plaster This is the material that bonds together the investment molds. It is made
from the mineral Gypsum, CaSO4-2H2O (dihydrate). Gypsum can be found in monumental
crystals in caves, and tourist traps usually bill them as "cave of swords" because of
their long columnar shape. Calcined at about 300F to CaSO4-1/2H2O (hemihtdrate) or
thereabouts. The calcined phase is much more soluble in water than the fully hydrated
phase, so when you mix the powdered product with water the hemihydrate dissolves and
recrystallizes as dihydrate. The long columnar crystals lock together and form a
mechanical network very early in the reaction, which only gets more and more solid as
the reaction proceeds. Investment is typically about 1/3 gypsum and 2/3 filler (usually silica) by
volume. Because the gypsum is so effective at building a 3D network, there is
comparatively little needed to hod the mold together, and the rest of the bulk can be
made up of more refractory components. You want the reaction to proceed at a known, well-controlled rate. For that
you need to mix the slurry well, but not too much. Overbeating the slurry will cause
it to cure too fast. Likewise the presence of foreign material, especially flakes of
old investemnt, will tend to accelerate the cure and may lead to differential
shrinkage and cracking. Warm mix water accelerates the cure, cool water retards it.
Keep oil away from plaster powder. Many oils, especially fatty acids, can prevent it
from curing at all. Salts generally tend to accelerate the cure.
Graphite This is the "wonder material" in the casting shop. It resists heat and molten
metal doesn't react with it, so it is the ideal material for making crucibles. There
are also gaskets of graphite paper on the casting machine, and graphite rods are used
to stir the melt.
Rest of Session 1
Pour the molds You should have molds preheated and ready to pour at the start of the class.
If you or your assistant are clever, they will have started melting metal about
halfway through the lecture, approximately when you are talking about molten metal
handling. That's a really good cue to remember. To wake up the students after the lecture, start pouring metal. First do a
walkthrough of what the metal-handler and the buddy do. Best is to actually pour a
mold with an assistant. Then break the group up into pairs and have each of them pour
one mold and buddy for another pour. Deold the parts and let them keep their
castings.
Finish spruing and invest the patterns Everyone needs to have at least one pattern to invest. If any of the patterns
are very bulky, weigh them to estimate how much metal they will need. For small
patterns this is less imporatnt becuse the sprue and button will take up about 50
grams of metal anyway.
Take the students one at a time through mixing the investment, degassing,
pouring into flasks, and second degas. They shouldn't need you to demonstrate these
operations yourself, just walk them through it the first time. Remember to wrap the tops of the flasks with tape to make room for the
bubbling during the degas step. Their names and the date go on the tape. Warn them
that unlabeled molds can be taken and used for random demos without warning. If using a cordless mixer, then only mix for about a minute and don't sweat
lumps in the mixture. Too much imixing with the power tool will make the investment
cure too fast. If you want to eliminate lumps then don't use the mixer, put on gloves
and mix by hand, feeling and breaking up lumps with your fingers. Degas under a bell jar. Press down to ensure the vacuum takes, and hold under
vacuum for about 1 minute, or until bubbles start to subside. Pour the investemnt down the side of the flask, not over the pattern. You
want to have the pattern get covered by a gradually rising surface of investemnt
without a lot of splashing. Degas a second time, this time for at least a minute, possibly two. Vent the
bell jar and set the flask aside to cure. This process must be repeared sequentially for every student, and it takes
roughly 1/3 - 1/2 of the class time to complete. If you have an assistant, then you
can take turns.
END OF FIRST SESSION
Before second session: Burn out the class molds from the first session, and arrange to have them up
to the preheat temperature by class time. Make sure you have enough of the correct
metals, and appropriate crucibles, to pour. Make sure the molds are organized such that you can have each student pour
their own piece. You can have them scribe their names into the investment, but the
paper tape labels are also good for this.
Second session This is essentially a repeat of the first session, minus the lecture.
Students should be able to perform a whole molding and casting cycle (not necessarily
in sequence) wihtout too much additional instruction. Obviously, you need to be
flexible here because some students are more adept than others. You can only go as
fast as the slowest student in the group. This session is when tool-testing might be performed, as desired. Depending
on the requirements, the students should all be capable of working SAFELY, if not
efficiently, with no prompting. During this session you may also demonstrate the operation of the wax injector
and discuss the use of the vulcanizer for making rubber molds, or use of two-part
molding compounds. Remember that the injector takes two hours to get fully up to
temperature. You may also demonstrate the use of the torch to melt metal in one of the
ladles, if time permits. You should also give a lesson on programming the kiln controller. Especially
show how to select a program and review it prior to running the program. Since the
kiln programs can get changed by other shop users, it is very important to undertand
how to review the settings and make changes as needed. Finally, you can discuss the students particular projects. For the instructor
this is the most interesting and rewarding part of the the class.