Difference between revisions of "Casting"

From TinkerMill Wiki
Jump to navigation Jump to search
 
(8 intermediate revisions by 5 users not shown)
Line 1: Line 1:
*[[Amy's notes from lesson with Mike]]
 
*[https://www.youtube.com/watch?v=wYWnZVu6pW8 Casting Process Slideshow]: Photos of casting lessons showing mostly the highlights of the investment process and spin casting setup. More will be added to this over time.
 
  
 +
=='''Lost Wax Casting Process'''==
 +
*Casting can be done in many ways.
 +
At TinkerMill we have the capability to cast with a vacuum caster and electro-melt furnace. We also have the ability to cast with a spin caster and dual-fuel fed torches.
 +
The process for both of these styles is similar in some ways but differ greatly in others. One similarity is the preparation needed to cast a wax model in metal.
 +
*Currently, we offer a three day immersive class in Lost Wax Casting that covers the entire process from start to finish. Over the three days students learn how to carve or construct a wax model and connect it to the base of the flask, what sprueing is and how to create the best system of sprues for the model, investing the model in plaster, and finally casting molten metal into the baked plaster mold. The class also introduces other forms of model making, casting methods, and supply resources. See the TinkerMill meetup [https://www.meetup.com/LongmontHackerSpace] channel for more information on this class. Below is an overview of the process including some vocabulary used during the process.
  
== Setup and Safety ==
+
**'''The Wax Model'''
The centrifugal machine must be securely bolted to a level surface with a protective fence around it. A metal washtub or a drum from a clothes dryer can be used. The fence should have no holes to prevent molten metal from escaping in case of a blowout.  
+
First the wax model must be made. Wax is a suitable material for this process because it can be burned away leaving a cavity where the wax was in the plaster investment. This allows the metal to form a positive just like the wax carving. Waxes come in many different states of density, shapes and sizes. Once a model has been made it is necessary to build what is called the sprues.
  
You can count on having at least one blowout. Blowouts have a way of raising your safety awareness dramatically.  
+
**'''Sprueing the Model'''
 +
Next the flow system must be built for the metal to travel and air to escape during the casting process. These sprues attach directly to the wax model and are also built from wax. It is best to use perfectly round sprues to reduce resistance when metal is flowing through the plaster cavity. Once the model has adequate flow created it is sprued directly to a flask base. This base and sprueing system suspends the model in the flask making it possible for a solid mold to be created by the investment. It is at this point that the weight is calculated. *Hint: it is helpful to pre-weigh all of the flask bases and tape their weight to the bottom for quick calculations. Please see the calculating metal weight section for more info on how to find how much metal is needed for the cast.  
  
The centrifugal machine should be at a comfortable working height. Remember, you’ll be working with hot flasks, molten metal, and a blazing torch. You don’t want to contort yourself into uncomfortable and unsafe positions. Do whatever is necessary to make this process as simple as possible.
+
**'''Investing the model'''
 
+
Once the model has been secured to the base and all transitions (the sprue connections) have been assured smooth, it is time to invest the model in plaster. A fine dental plaster is used for this process, it can withstand very high heat for prolonged periods and is slow to cool. As with most processes of this nature there are safety concerns. At this point it is highly recommended that one employs the use of a respirator with fine particulate filtering. As mentioned the plaster used in this process is very fine and therefore aspirable.  
*Take Precautions When Learning Centrifugal And Vacuum Casting
+
The plaster is mixed in specific ratios to water to create a batter like consistency. The flask is prepared dependent upon the style of casting, ie: spin casting or vacuum. These preparations vary due to the type of flask used for each process. The plaster is then carefully poured into the flask, it is best to have a vacuum table to release any air bubbles that could get trapped while pouring the investment, but the bubbles could also be vibrated out using a vibratory table. The plaster used in this process has a very short cure time. Approximately 9 minutes from the point at which the water touches the plaster powder. Some plasters are faster, somewhere around 7 minutes. When all bubbles have been released the flask is set to rest until fully cured (about 60 minutes)
 
+
**'''Burnout'''
You’ll be working with hot blazing torches, molten metal, and hot flasks. There will be temperatures in your workshop that can severely damage any material. Take the time to educate
+
This is the process in which the wax is removed from the plaster. Using a kiln, the flask is fired for around 6 hours using two ramping cycles and a holding cycle. The first ramp removes the wax from the plaster and burns it away. The second cycle brings the flask and investment up to casting temperature and then holds it there for a set amount of time. It is recommended that to fully set the investment it must remain in the second ramp for a minimum of two hours. 3-4 hours is better. Burnout generally happens the day of the casting event. This can be programmed with a delay start the previous night, or started early in the morning for an afternoon casting. Depending on the equipment being used it may be recommended to assure the start of each ramp cycle.  
yourself about the tools, equipment, materials, and procedures you’ll be using. Doing your own centrifugal or vacuum casting isn’t difficult. However, as with any new
+
**'''Casting'''
experience, it does have a learning curve. Plan the placement of your equipment and go through a dry run one or two (or twelve) times until you’re comfortable with the procedures.
+
The final phase of this process. Using the calculated amount of metal, it will either be melted in the electro melt furnace or with a dual fuel fed torch in a crucible. Once the metal is molten and free of debris it will be poured into the fresh from the kiln flask. It is important that the flask be at casting temperature when pouring the metal to ensure that there is very little difference in temperature between the two materials when contacting each other. Extreme differences can cause cracking or break down of the investment and failure in casting.  
 
+
It is highly recommended to cast with a partner, even if you use the electro melt and vacuum system. Having a casting buddy allows for back up assistance in the casting process and help if something goes wrong.
Keep a fire extinguisher handy.
 
 
 
If you’re casting indoors, you’ll need to have outstanding ventilation. Adequate ventilation will not do. Torch and wax fumes are toxic. Other model materials can be worse. Keep your health and that of others in mind.  
 
 
 
A final warning: don’t dump investment down your household drains. It’ll set like concrete. You’ll end up sending some plumber’s kids to college.
 
 
 
== Balancing a Centrifugal Casting Machine ==
 
Every flask used in a centrifugal casting must be balanced. Follow these steps:
 
 
 
# Place the invested, but not burnt-out, flask into the centrifugal machine.
 
# Slide the crucible to the mold and put your pre-measured metal for that flask into the crucible.
 
# Loosen the center nut so the arm will teeter-totter.
 
# Adjust the counter-balance weights so a slight touch will cause the arm to move up or down.
 
# Make sure that you tighten the weight nut and the center nut. Check them again and then once more just to be sure. If you’re working with others, even if you watch them tighten the nuts, check them yourself.
 
 
 
== Centrifugal and Vacuum Casting Procedures ==
 
 
 
'' Vacuum vs. Centrifugal Casting ''
 
Vacuum casting units are expensive. If you can afford one, by all means buy one. (One of the advantages of vacuum casting is you don’t have to go through the tedious balancing procedure above). There are some excellent machine and accessories packages available.
 
 
 
*Differences between centrifugal and vacuum casting will be explaining in the step-by-step guide below. Otherwise, these steps apply to either method.
 
 
 
=== Procedure ===
 
#Make or buy a wax model or pattern.
 
#Check the model for any defects and repair if needed. The more finished the model, the less cleanup the finished casting will need. Model materials are easier to work on than metal.
 
#Weigh and mark the rubber sprue bases.
 
#Mount tree wax on the sprue base. Melt wax where the sprue wax and the sprue base meet. You can use an alcohol lamp and a large sewing needle stuck into the end of a wooden dowel. Heat the needle and use it to melt and apply the wax. Commercial wax pens are also available.  
 
#Mount a small sprue onto the model, preferably in a spot that won’t be visible on the finished piece. Put a fillet of wax where the sprue is attached to the model.
 
#Secure the sprued model to the tree. Keep the sprue for the model as short as possible. The sprued model can be attached with “sticky wax” or by using the hot needle again. Put a fillet of wax where the model sprue and the tree meet. When spruing multiple models, start from the top of the tree sprue and work towards the base. Keep the models a minimum of 1/8” apart. Check for clearance between the models and the flask wall.
 
#Assemble the flask and base and recheck your clearances. Models should be at least 3/8” from the flask wall. Allow for at least 1/2” for investment to cover the model.  
 
#Remove flask from base and weigh the sprued base. Subtract the weight of the sprue base and you have the weight of your models and sprues. To figure how much metal will be needed, you’ll have to do a little math. See “How To Calculate The Casting Metal Amount” below. Mark the flask to distinguish it from others.
 
#Put the flask and sprued base back together. Check your clearances again. (For vacuum casting, cut soda straws 1/2” to 3/4” shorter than the height of the flask. Plug one end with wax and clip it to the side of the flask wall with a bobby pin and seal the end. This gives a boost to the vacuum by creating a channel into the mold where the straws have burnt out. After the flask is invested, remove the bobby pins).
 
#Instructions for mixing investment are included with the investment. In general, put water into the rubber mixing bowl. Then add the investment. Mix the investment to the consistency of pancake batter. Make sure there are no lumps. You’ll get lumps if you put the investment into the bowl and then add the water. Vibrate the mixing bowl on a vibrating platform. (If you‘re using a vacuum machine, place the mixing bowl on the investment table. Put the bell jar over the bowl and turn on the vacuum. The investment will “boil” and turn frothy. This is the air being pulled out of the investment by the vacuum. The froth will die down in a bit. Vacuum for about a minute and a half. Over vacuuming will cause bubbles in the investment).
 
#While tilting the flask, slowly pour the investment into the flask until it’s full. If you don’t have enough mixed investment to fill a flask completely, dump it out and mix more investment. Using two pours to fill a flask is just asking for problems. (If you‘re going to vacuum cast, make sure that the flask will seal. Check that there is no investment on the flask rim. A small channel can be scraped into the investment where it meets the flask wall).
 
#Vibrate the flask on a vibrating platform or vacuum the flask the same way as the mixing bowl. While vibrating the flasks, tap on the side with a metal rod or a screwdriver. This helps shake the bubbles loose. (If you’re vacuum casting, collars of stiff flexible material are needed for the flasks. The collars keep the investment from spilling all over the investment table when it froths up. The collar can be held in place with rubber bands. (Vacuum for about a minute and a half).
 
#Let the investment set up. Scratch an identity mark in the investment.
 
#Remove the rubber sprue with a twisting motion.
 
#Before putting the flasks into the kiln, find a way to keep the molten wax off the bottom of the kiln. Without this protection, the kiln won’t last long. Ceramic tiles with grooves in them to hold the wax until it vaporizes will work well. You can de-wax the invested flasks by putting them in a toaster oven set at the temperature the wax melts. Don’t do this in your kitchen oven! Put a tray under the flasks to catch the molten wax.
 
#Clean any dried investment from the outside of the flasks and from the lip if you are vacuum casting. Put the flasks in a cold kiln. Make sure to leave some space between the flasks.
 
#Follow a “burnout schedule” based on the size of the flasks. Buy and study a good casting book. I recommend Practical Casting: A Studio Reference by Tim McCreight.
 
#You should have containers with the weighed-out metal for each flask. Use metal that hasn’t been melted since it came from the refinery or metal that’s been melted only once (such as old buttons and sprues from previous castings), plus not less than fifty percent by weight of new metal. Cast sprues and buttons can be recycled twice for casting metal.  
 
#Turn off the kiln at the end of the burnout cycle. Let the flasks cool to 300 to 400 degrees below the melting point of the metal used.  
 
#Flux and warm up the crucible.
 
#Place the hot flask in the centrifugal machine, checking for alignment. Slide the crucible to the flask opening.
 
#Melt the metal. Use the stirring rod to check the melt for lumps. Slide any impurities to the side of the crucible farthest from the flask mouth. Don’t boil the metal. If the melt is boiling, put a bit of flux in the mix and back off with the torch until the metal cools down.  
 
#When the metal is melted, remove the torch and release the casting arm in a smooth movement. Let the machine stop spinning and remove the flask from the machine. Put the still hot flask on a fire-resistant surface until it cools down to a dull red. Then quench the flask in the bucket of water or let it sit while you cast other flasks. (For vacuum casting, take the flask out of the kiln and place it button up on the casting pad. Turn on the vacuum and make sure you have a good seal between the flask and the casting pad. When the highest vacuum is reached, melt and pour the metal. Leave the vacuum on until the metal solidifies. Set the flask aside to cool, quench, or continue casting).
 
#Using the tongs, quench the flasks in the bucket of water, sloshing it back and forth. The water will remove the castings from the investment. Wait a bit before you retrieve the castings. They will still be hot.
 
#You now have an ugly chunk of metal covered with investment and black oxidation. Scrub the castings with a toothbrush and remove as much investment as possible.
 
#Cut the castings and their sprues from the tree. Clean more investment as needed. Cut the sprues from the model. Clean up the area where the sprue was attached. Heat and pickle the cast pieces. Finish the pieces by soldering, filing, and polishing.
 
#You’re done! 
 
  
 
==How To Calculate The Casting Metal Amount ==
 
==How To Calculate The Casting Metal Amount ==
  
The amount of metal needed to fill the mold = (W x SGw x SGm) + 6.4301 grams.
+
The amount of metal needed to fill the mold = (W x SGm + 10%)  
  
 
When:  
 
When:  
  
 
*W = Grams of wax or other model medium.  
 
*W = Grams of wax or other model medium.  
**SGw = Specific gravity of wax or other model medium.
 
 
**SGm = Specific gravity of metal used for casting.  
 
**SGm = Specific gravity of metal used for casting.  
  
 
The following example uses wax as the model medium and sterling silver as the metal.  
 
The following example uses wax as the model medium and sterling silver as the metal.  
  
Let’s say that the weight of the sprue base, model, and sprues comes to 325 grams. The base weighs 144 grams. 325 grams minus 144 grams equals 181 grams of wax model and sprues. Wax has a specific gravity of 1. Sterling silver has a specific gravity of 10.4.  
+
Let’s say that the weight of the sprue base, model, and sprues comes to 153 grams.
**So, 181 grams x 1 x 10.4 = 1882.4 grams of sterling silver.  
+
The base weighs 144 grams. 153 grams minus 144 grams equals 9 grams of wax model and sprues. Sterling silver has a specific gravity of 10.4.  
 +
**So, 9 grams x 10.4 = 93.6 grams of sterling silver.  
  
To ensure there is adequate metal to fill the mold, add 10 pennyweights of metal for the button. A pennyweight equals .64301 grams, so 10 pennyweights equals 6.4301 grams.
+
To ensure there is adequate metal to fill the mold, add 10% to your total for the button.
  
**1882.4 + 6.4301 = 1888.8301 grams.
+
**93.6 + 10%= 99.9 total grams of metal
  
Round it off to 1890 grams of sterling to fill the flask.
+
Round it off to 99 grams of sterling to fill the flask. To calculate how many ounces that would be divide your number by 31, this weight is approximately 3.2 ounces of silver. This is handy when ordering your metal.

Latest revision as of 11:13, 31 May 2020

Lost Wax Casting Process[edit]

  • Casting can be done in many ways.

At TinkerMill we have the capability to cast with a vacuum caster and electro-melt furnace. We also have the ability to cast with a spin caster and dual-fuel fed torches. The process for both of these styles is similar in some ways but differ greatly in others. One similarity is the preparation needed to cast a wax model in metal.

  • Currently, we offer a three day immersive class in Lost Wax Casting that covers the entire process from start to finish. Over the three days students learn how to carve or construct a wax model and connect it to the base of the flask, what sprueing is and how to create the best system of sprues for the model, investing the model in plaster, and finally casting molten metal into the baked plaster mold. The class also introduces other forms of model making, casting methods, and supply resources. See the TinkerMill meetup [1] channel for more information on this class. Below is an overview of the process including some vocabulary used during the process.
    • The Wax Model

First the wax model must be made. Wax is a suitable material for this process because it can be burned away leaving a cavity where the wax was in the plaster investment. This allows the metal to form a positive just like the wax carving. Waxes come in many different states of density, shapes and sizes. Once a model has been made it is necessary to build what is called the sprues.

    • Sprueing the Model

Next the flow system must be built for the metal to travel and air to escape during the casting process. These sprues attach directly to the wax model and are also built from wax. It is best to use perfectly round sprues to reduce resistance when metal is flowing through the plaster cavity. Once the model has adequate flow created it is sprued directly to a flask base. This base and sprueing system suspends the model in the flask making it possible for a solid mold to be created by the investment. It is at this point that the weight is calculated. *Hint: it is helpful to pre-weigh all of the flask bases and tape their weight to the bottom for quick calculations. Please see the calculating metal weight section for more info on how to find how much metal is needed for the cast.

    • Investing the model

Once the model has been secured to the base and all transitions (the sprue connections) have been assured smooth, it is time to invest the model in plaster. A fine dental plaster is used for this process, it can withstand very high heat for prolonged periods and is slow to cool. As with most processes of this nature there are safety concerns. At this point it is highly recommended that one employs the use of a respirator with fine particulate filtering. As mentioned the plaster used in this process is very fine and therefore aspirable. The plaster is mixed in specific ratios to water to create a batter like consistency. The flask is prepared dependent upon the style of casting, ie: spin casting or vacuum. These preparations vary due to the type of flask used for each process. The plaster is then carefully poured into the flask, it is best to have a vacuum table to release any air bubbles that could get trapped while pouring the investment, but the bubbles could also be vibrated out using a vibratory table. The plaster used in this process has a very short cure time. Approximately 9 minutes from the point at which the water touches the plaster powder. Some plasters are faster, somewhere around 7 minutes. When all bubbles have been released the flask is set to rest until fully cured (about 60 minutes)

    • Burnout

This is the process in which the wax is removed from the plaster. Using a kiln, the flask is fired for around 6 hours using two ramping cycles and a holding cycle. The first ramp removes the wax from the plaster and burns it away. The second cycle brings the flask and investment up to casting temperature and then holds it there for a set amount of time. It is recommended that to fully set the investment it must remain in the second ramp for a minimum of two hours. 3-4 hours is better. Burnout generally happens the day of the casting event. This can be programmed with a delay start the previous night, or started early in the morning for an afternoon casting. Depending on the equipment being used it may be recommended to assure the start of each ramp cycle.

    • Casting

The final phase of this process. Using the calculated amount of metal, it will either be melted in the electro melt furnace or with a dual fuel fed torch in a crucible. Once the metal is molten and free of debris it will be poured into the fresh from the kiln flask. It is important that the flask be at casting temperature when pouring the metal to ensure that there is very little difference in temperature between the two materials when contacting each other. Extreme differences can cause cracking or break down of the investment and failure in casting. It is highly recommended to cast with a partner, even if you use the electro melt and vacuum system. Having a casting buddy allows for back up assistance in the casting process and help if something goes wrong.

How To Calculate The Casting Metal Amount[edit]

The amount of metal needed to fill the mold = (W x SGm + 10%)

When:

  • W = Grams of wax or other model medium.
    • SGm = Specific gravity of metal used for casting.

The following example uses wax as the model medium and sterling silver as the metal.

Let’s say that the weight of the sprue base, model, and sprues comes to 153 grams. 

The base weighs 144 grams. 153 grams minus 144 grams equals 9 grams of wax model and sprues. Sterling silver has a specific gravity of 10.4.
    • So, 9 grams x 10.4 = 93.6 grams of sterling silver.

To ensure there is adequate metal to fill the mold, add 10% to your total for the button.

    • 93.6 + 10%= 99.9 total grams of metal

Round it off to 99 grams of sterling to fill the flask. To calculate how many ounces that would be divide your number by 31, this weight is approximately 3.2 ounces of silver. This is handy when ordering your metal.

Retrieved from "https://wiki.tinkermill.org/index.php?title=Casting&oldid=4199"