Cast? Forged? Billet? What do they mean?
10-29-2012 | 12:31 PM
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Cast? Forged? Billet? What do they mean? Cast? Forged? Billet? What do they mean?
All materials start out at some point as a cast chunk. There is a big difference though in a cast part and a billet chunk of steel or aluminum. The actual naming convention is that a square or rectangular chunk is called a billet, and a round chunk is called a round, but the name billet in aftermarket circles has come to mean “strong because it is made from a block of metal”. This is not always true.
A cast part is made from material being forced or poured into a mold. The part will have thicker and thinner areas, and takes shape from this molten state. Therefore the material must have good castability. One of the main properties of a material that has good castability is that it does not form internal voids on cooling. As a material cools, it shrinks. If there are thick and thin areas, the thick areas will cool slower than the thin ones, and the thick areas can form voids, and the part can warp out of shape or crack, or worse, form internal stresses that come out when the part is used, then crack later. That’s why when you look at an engine block for example, they often have scalloped out areas to make the wall thickness more even. These materials are typically more brittle. A cast crankshaft is “weaker” because it is made from cast or nodular cast iron, not really because it is cast. It is cast because the material is very castable, but is impossible to forge. A billet may start out cast, but the shape is very very even and symmetrical, so the above concerns do not come into play as in a cast part of some odd shape.
A forged part is made from a chunk of metal. It is then usually heated, and it is pounded into shape in a forging die. The extra metal oozes out from between the forging dies and must be ground off. This is why there is a wide parting line on forged parts. A forged crank is stronger because of the steel it is made from. It could be an alloyed 4340 steel with .40% carbon, or a weaker 1020 steel that is not alloyed and has less (.20%) carbon. The early Chevrolet forged steel cranks crack so regularly mostly because of the weak material they were forged from. It was something like a 1020 (I’m not positive, but you get the idea). A forged piston is strong because of the material it is made from The steel used to make a forged part must have good forgability. It is forged because the material is not very castable. The forging process DOES add grain flow and add strength to the part as above, but it is primarily the higher material Ultimate Tensile Strength (UTS) and Yield Strength (YS) that make it strong. The yield point is the point at which a part first starts to plastically deform. Take a paper-clip, and straighten it. You can flex it to some degree without bending it. Once you permanently bend it, you have hit the yield point. The UTS is where the part actually breaks. The more brittle a material is, the closer together the UTS and the YS are. Also remember, steel can have a yield strength of as little as 40,000 psi, and as great as 300,000 psi. Now a forged part generally is more ductile than a cast part. 4340 steel is probably the most common material for connecting rod and crank forgings. One of the reasons is its balance of high tensile strength, ductility, and cost. It also responds positively to heat treating, so the surface hardness and the overall material tensile strength can be increased after machining. It is cheaper to machine the part when soft, then heat treat it hard.
Now the cost of a forged part would seem to be higher because of needing a set of forging dies and a bajillion ton forging press, but the cost or a forged part is generally much lower than a billet part because once the forging tooling is set up, you just go to town and pump out thousands of parts. Forged parts are always made in high quantity to justify the cost of the tooling. The cost of tooling amortized over 100,000 parts is small. If you had a half million dollars tooling costs, in this case the per part cost would be $5 per part. The parts are also close to finished shape, and do not need much machining. Machining generally must be done by workers with more skill and take more time than forging.
Now here is the key with billet parts... billet parts have the capability of being of higher strength than a forged part. It depends on what kind of steel the part is made from. A billet part is cut from a solid chunk of steel, so the material does NOT have to be forgeable. You can make parts out of superior strength materials to forging, because you do not have to pick a material that is forgable. Again, this does not stop the designers from picking a weak cheap material, knowing gearheads will buy the parts because the box says “billet”. The biggest drawback to a billet part is they must be fully machined. If producing 100,000 or 250,000 parts, the cost of the machining of all the parts will be much higher than the cost of forging and then finish machining an equal number of parts. The advantage is in low numbers of parts. You can set up a CNC program to mill out 10 sets of billet rods and make money on them. The tooling cost to forge something I’m sure is over $100,000. I do not know what it would cost, but I am just throwing out a number to give an idea of costs.
When shopping for parts in the future, remember what the terms "billet" and "forged" really mean. When shopping for the best of any product, the better you understand the terminoligy and the science behind the product, the better your decision making will be. When someone advertises a product as being "billet steel" or "billet aluminum", or "forged steel" you should be asking "what kind of steel?" or "what grade of aluminum?" or "what are the material properties?"
All materials start out at some point as a cast chunk. There is a big difference though in a cast part and a billet chunk of steel or aluminum. The actual naming convention is that a square or rectangular chunk is called a billet, and a round chunk is called a round, but the name billet in aftermarket circles has come to mean “strong because it is made from a block of metal”. This is not always true.
A cast part is made from material being forced or poured into a mold. The part will have thicker and thinner areas, and takes shape from this molten state. Therefore the material must have good castability. One of the main properties of a material that has good castability is that it does not form internal voids on cooling. As a material cools, it shrinks. If there are thick and thin areas, the thick areas will cool slower than the thin ones, and the thick areas can form voids, and the part can warp out of shape or crack, or worse, form internal stresses that come out when the part is used, then crack later. That’s why when you look at an engine block for example, they often have scalloped out areas to make the wall thickness more even. These materials are typically more brittle. A cast crankshaft is “weaker” because it is made from cast or nodular cast iron, not really because it is cast. It is cast because the material is very castable, but is impossible to forge. A billet may start out cast, but the shape is very very even and symmetrical, so the above concerns do not come into play as in a cast part of some odd shape.
A forged part is made from a chunk of metal. It is then usually heated, and it is pounded into shape in a forging die. The extra metal oozes out from between the forging dies and must be ground off. This is why there is a wide parting line on forged parts. A forged crank is stronger because of the steel it is made from. It could be an alloyed 4340 steel with .40% carbon, or a weaker 1020 steel that is not alloyed and has less (.20%) carbon. The early Chevrolet forged steel cranks crack so regularly mostly because of the weak material they were forged from. It was something like a 1020 (I’m not positive, but you get the idea). A forged piston is strong because of the material it is made from The steel used to make a forged part must have good forgability. It is forged because the material is not very castable. The forging process DOES add grain flow and add strength to the part as above, but it is primarily the higher material Ultimate Tensile Strength (UTS) and Yield Strength (YS) that make it strong. The yield point is the point at which a part first starts to plastically deform. Take a paper-clip, and straighten it. You can flex it to some degree without bending it. Once you permanently bend it, you have hit the yield point. The UTS is where the part actually breaks. The more brittle a material is, the closer together the UTS and the YS are. Also remember, steel can have a yield strength of as little as 40,000 psi, and as great as 300,000 psi. Now a forged part generally is more ductile than a cast part. 4340 steel is probably the most common material for connecting rod and crank forgings. One of the reasons is its balance of high tensile strength, ductility, and cost. It also responds positively to heat treating, so the surface hardness and the overall material tensile strength can be increased after machining. It is cheaper to machine the part when soft, then heat treat it hard.
Now the cost of a forged part would seem to be higher because of needing a set of forging dies and a bajillion ton forging press, but the cost or a forged part is generally much lower than a billet part because once the forging tooling is set up, you just go to town and pump out thousands of parts. Forged parts are always made in high quantity to justify the cost of the tooling. The cost of tooling amortized over 100,000 parts is small. If you had a half million dollars tooling costs, in this case the per part cost would be $5 per part. The parts are also close to finished shape, and do not need much machining. Machining generally must be done by workers with more skill and take more time than forging.
Now here is the key with billet parts... billet parts have the capability of being of higher strength than a forged part. It depends on what kind of steel the part is made from. A billet part is cut from a solid chunk of steel, so the material does NOT have to be forgeable. You can make parts out of superior strength materials to forging, because you do not have to pick a material that is forgable. Again, this does not stop the designers from picking a weak cheap material, knowing gearheads will buy the parts because the box says “billet”. The biggest drawback to a billet part is they must be fully machined. If producing 100,000 or 250,000 parts, the cost of the machining of all the parts will be much higher than the cost of forging and then finish machining an equal number of parts. The advantage is in low numbers of parts. You can set up a CNC program to mill out 10 sets of billet rods and make money on them. The tooling cost to forge something I’m sure is over $100,000. I do not know what it would cost, but I am just throwing out a number to give an idea of costs.
When shopping for parts in the future, remember what the terms "billet" and "forged" really mean. When shopping for the best of any product, the better you understand the terminoligy and the science behind the product, the better your decision making will be. When someone advertises a product as being "billet steel" or "billet aluminum", or "forged steel" you should be asking "what kind of steel?" or "what grade of aluminum?" or "what are the material properties?"
10-29-2012 | 07:40 PM
#3
Nice write up. I was just reading About advanced casting techniques, and a plus of castings is that you can get some very complex shapes that are either impossible or too cost prohibitive to do with forging or machining.
10-30-2012 | 05:00 PM
#5
10-30-2012 | 05:17 PM
#6
"A cast part is made from material being forced or poured into a mold"
Forced is not the right term here...it should be dropped and only say poured. Forcing, to me, means extrusion, and I have never heard that of a cast part.
In terms of strength, here is a good quideline for metals and manufacturing techniques:
cast < wrought < forged
Forced is not the right term here...it should be dropped and only say poured. Forcing, to me, means extrusion, and I have never heard that of a cast part.
In terms of strength, here is a good quideline for metals and manufacturing techniques:
cast < wrought < forged
10-30-2012 | 11:11 PM
#7
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10-30-2012 | 11:31 PM
#8
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Last edited by ez2cdave; 10-31-2012 at 05:38 PM.
10-31-2012 | 02:08 PM
#9
No not really, I just Googled the thread title and there it was.IMO, I think if you're going to want your thread/post info to become a sticky, you should at least try to state the source if it's not from you.
Last edited by 99Bluz28; 10-31-2012 at 02:14 PM.
10-31-2012 | 02:22 PM
#10
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Joined: Aug 2012
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From: Fostoria, Ohio
In addition to this, depending on the shape of the "billet" material, you may have material impurities in vulnerable spots where you don't want them. With a forging you can at least attempt to keep the impurities settling in the middle of the piece, where you do not necessarily care if they are there.
Edit: Not to get off topic BUT there's a big difference between when an American company says something is 4340 compared to when a chinese suppliers says something is 4340 (using 4340 as an example). You know the same sh*tty quality standards China holds throughout their products? You can apply that same mentality to material specifications as well.
Edit: Not to get off topic BUT there's a big difference between when an American company says something is 4340 compared to when a chinese suppliers says something is 4340 (using 4340 as an example). You know the same sh*tty quality standards China holds throughout their products? You can apply that same mentality to material specifications as well.
Last edited by ElGuapoK20; 11-01-2012 at 08:34 AM.
