I've been trying to use the calculator on the CBA home page, but I can not get it to calculate the BHN. I've inputed the weights of the various metals I want to blend, and it gives me the ratio of each element, but no BHN. Is there something I'm doing wrong?
Alloy BHN Calculator
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- Last Post 22 July 2010
Nope, you are not doing anything wrong.
A forum member here discovered that the BHN calculation gave a slightly incorrect value. He demanded that it be removed as we were allowing incorrect info to go out to people.
Exact calculation is virtually impossible due to the fact that if you are using lead that is not virgin and if you do not know the exact percentages of the components in that alloy, you can not properly calculate using the calculator sheet. The hardness of that batch could and most likely would be off a little bit.
I found it close enough, but the fellow complained enough to get it removed and the one you have put in its place.
Sorry about that...
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No problem. It's easy enough to do the math. In fact, given a little time, I can (with some help from my IT guy) make it work. I don't understand how it can give an incorrect value because the math is straight forward. It may be off a little due to complex interactions of the various elements during the alloying process, but for all intents and purposes, it's accurate enough. It's just a convenience when playing with ideas.
Thanks, Jeff
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Nope, you are not doing anything wrong.
A forum member here discovered that the BHN calculation gave a slightly incorrect value. He demanded that it be removed as we were allowing incorrect info to go out to people.
Exact calculation is virtually impossible due to the fact that if you are using lead that is not virgin and if you do not know the exact percentages of the components in that alloy, you can not properly calculate using the calculator sheet. The hardness of that batch could and most likely would be off a little bit.
I found it close enough, but the fellow complained enough to get it removed and the one you have put in its place.
Sorry about that...
I'm the “forum member” who complained and demanded that it be removed. Jeff doesn't understand the relationship between the BHN and percentages of the alloy. It is a common mistake to assume that the BHN is the arithmetic mean = average of the BHNs of the constituents, proportioned, which is not true.
The attached graph is the only source I've found, and is from “Type Metal Alloys” By Frances D. Weaver, B.Sc. (Mrs. Harold Haywood), see: Journal of the Institute of Metals, Vol. LVI, 1935. The graph has been edited.
Certainly it is true that if one blends two metals or alloys which have quite similar hardnesses, then generally the hardness of the resulting alloy is similar to the average proportioned hardness of the two. Mixing BHN 12 and BHN 11 l-t-a alloys in 50% proportions will yield an alloy with BHN of ~ 11.5.
However, for Lyman #2, Linotype, WW, it doesn't work.
The complexity of a relationship should not be a determinator of it's acceptability.
joe b.
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joeb33050 wrote: Certainly it is true that if one blends two metals or alloys which have quite similar hardnesses, then generally the hardness of the resulting alloy is similar to the average proportioned hardness of the two. Mixing BHN 12 and BHN 11 l-t-a alloys in 50% proportions will yield an alloy with BHN of ~ 11.5.
That is my point. The calculator is a useful tool. Although it is not exact linear relationship, for the puposes of the “average” caster, like me, it is sufficent. Rather than demanding that it be removed, it would have been more appropriate to explain the limitations of the linear method of determination and leave it up to the user as to whether it meets their needs or not.
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joeb33050 wrote:
Certainly it is true that if one blends two metals or alloys which have quite similar hardnesses, then generally the hardness of the resulting alloy is similar to the average proportioned hardness of the two. Mixing BHN 12 and BHN 11 l-t-a alloys in 50% proportions will yield an alloy with BHN of ~ 11.5.
That is my point. The calculator is a useful tool. Although it is not exact linear relationship, for the puposes of the “average” caster, like me, it is sufficent. Rather than demanding that it be removed, it would have been more appropriate to explain the limitations of the linear method of determination and leave it up to the user as to whether it meets their needs or not.
The calculator as originally presented was incorrect, is incorrect, has no basis in fact and it gives incorrect results a substantial part of the time.
See the graph, compute your percentages, look up the BHN.
Let the user decide if he wants to use an incorrect method? Nonsense.
Many times in life there are not easy solutions. This is one.
joe b.
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Bill,
The Alloy Calculator is a fantastic tool for most cast shooters who have an array of common lead products in their inventory. It will allow you to mix anything from pure lead to 25:1, wheel weights, Linotype, 50/50 solder, or a previous batch of #2Alloy; with mixing any of the combinations in a usable weight/batch for casting purposes, not scientific purposes.
Just a fantastic tool for those realizing its potential. It was never meant to be a Bhn Calculator...................Dan
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Bill,
The Alloy Calculator is a fantastic tool for most cast shooters who have an array of common lead products in their inventory. It will allow you to mix anything from pure lead to 25:1, wheel weights, Linotype, 50/50 solder, or a previous batch of #2Alloy; with mixing any of the combinations in a usable weight/batch for casting purposes, not scientific purposes.
Just a fantastic tool for those realizing its potential. It was never meant to be a Bhn Calculator...................Dan
True.
It is of some interest to note that actual BHNs are approximately half the table = ~true BHNs. I can't find an error in my calculations; invite others to set me straight. Perhaps it is true that for the smaller end of tin and antimony percentages, this “halfâ€? approaches truth, but I can't get that from the graph.
joe b.
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OK, Joe. I understand your argument. If you are alloying elemental metals to lead, the calculations are significantly off. On the other hand, if you are, like most casters, blending, say, 80 # ww with 20# lead, I believe the results are fairly accurate. I worked it out with lino mixed with lead and the calculated BHN falls in closely with what I have measured after actually blending the materials and hardness testing them.
On the other hand, if you were to, instead of using the given BHN of linotype, use the elemental ingredients in the calculation, it does not match.
So to me, for my use, I will simply drop tin and antimony from the chart and it will yield a usefull and reasonably accurate tool.
I think your problem is that you can not see the forrest for the trees.
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Joe Before you assume what I do and do not understand you should ask, that way you dont end up looking like a fool and embarrassing yourself.
I gave the fellow what he needed to know, no more no less.
You chose to elaborate well beyond what was needed to explain and attack me in the process.
You can disagree and even argue your point, but I will not tolerate personal attacks. Do not make that mistake again.
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Joe
Before you assume what I do and do not understand you should ask, that way you dont end up looking like a fool and embarrassing yourself.
I gave the fellow what he needed to know, no more no less.
You chose to elaborate well beyond what was needed to explain and attack me in the process.
You can disagree and even argue your point, but I will not tolerate personal attacks. Do not make that mistake again. Jeff;
Do you understand it? It didn't seem so, after your sort of nasty comments about my actions. Are you allowed to make personal attacks? Because you're the webmaster? Please explain.
joe b.
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On the chart, is the BHN value the numbers on the right? How do we read the squiggly lines? What BHN value would it be if we had 3% tin and 24% antimony? Would it reach 32 BHN or would it never surpass 22 BHN, if it never crosses the wavy line?
Nice chart, but scant directions for using it.
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Nice chart, but scant directions for using it.
I agree.
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On the chart, is the BHN value the numbers on the right? How do we read the squiggly lines? What BHN value would it be if we had 3% tin and 24% antimony? Would it reach 32 BHN or would it never surpass 22 BHN, if it never crosses the wavy line?
Nice chart, but scant directions for using it. The BHN values are the squiggly lines. Take the line marked “20” for example. Way up top left an alloy with 24% antimony and 2% tin BHN = 20. As antimony percent is reduced a lot, and tin percent is increased a little, BHN stays 22, see antimony % = 10% and tin % = 4%. Now the BHN 20 line squiggles some, ends up over on the right side where antimony ~7% and tin 14%. BUT, a bit to the left, at the dip down, BHN = 20 when antimony ~7% and tin ~7%. Add a lot of tin and BHN remains the same.The squigglers are in 2BHN steps, 10, 12, 14... and so on, so one must interpolate between the lines, for BHN17 for example. On the left side, with tin = 0%, it looks like antimony ~9% would = BHN of 17.
If that isn't clear, tell me and I'll try again.
I don't have any idea why the graph is tilted to the right, and the original graph and those in “CAST BULLETS” are more complex and confusing. I think I attached an original, the one above is, I hope, much clearer.
It is clear to me that the relationships are anything but linear.
joe b.
If I could find a clearer or more recent source, then I'd be happier with the data.
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Thanks, Joe.
The new chart with instructions does make it clearer on how to use it.
This might be a good money saver, since adding antimony without much tin will not give a higher BHN, as one would think. This chart looks like it will work if we can figure the tin, antimony, and lead percentages of the material we have. It may not have the elegance of a spreadsheet, but it does show a fixed relationship of the alloys. Think I'll make a copy of the chart and hang it over the casting bench.
Of course, after all this alloying, we get into the great debate of which BHN tester to use!
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I don't if this works on other computers, but on a MAC, I was able to click on the diagram and drag the diagram to the desktop and print it from there.
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Being 'math deficient', what would be the Bhn formula for a Sn + Pb alloy for 1:11 and 1:14?
Using the calculator: 1:11 = Bhn 7.075 1:14 = Bhn 6.666
Why I'm asking - Back in the 1800's, paper patch bullets used for long distance shooting were cast in these alloy ratios. Today's times, casters and shooters of PP bullets keep saying use 1:20 and 1:30
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John Boy,
That is the issue with the calculator. The calculator works well using mixing known alloys, but putting in tin, as an element, yields an incorrect BHN. While tin may hardness test at a BHN of 30 (or whatever is in the table), when alloyed with lead, the resulting BHN is not linear. Using Col. Harrison's table,
Just a fantastic tool for those realizing its potential. It was never meant to be a Bhn Calculator
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Having an array of lead products, the calculator has served me well. I have found though, that when I am looking for a specific Bhn, particularly when using WW's, I pour an ingot from the melt - test for hardness and adjust accordingly. Thanks for the help "The Alloy Calculator is a fantastic tool for most cast shooters who have an array of common lead products in their inventory."
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If those who have a PC want to copy this chart:
Right click in the middle of the chart, pick “save image as” and save it to your place of choice on your computer.
The image is an attachment. To save the explanatory text, high light it and copy to your place of choice.
I opened a folder in my “Documents” labeled “Reloading data” and entered the chart and text separately.
Dale53
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Hi Joe, Thanks for the BHN chart:dude:
I'm new to this forum and to casting and I have been looking for a way to predict a BHN from percentages of tin, antimony and lead. I figured out it is not a weighted average of the components but was at a loss as to why.:( Your “contour map” chart explains a lot. :D I might be able to adapt this data into Excel look-up tables, allowing for interpolation errors. It would be helpful to know where the left side of the BHN 10,12 and 14 lines end at the edge of the graph and the route they took getting there.:) Wheel weights for example have 1/4 to 1/2% tin and 4% antimony. That puts the intersection in “no line” land.:shock:
I'll try to find the article this chart came from here in North East Ohio but if you know how the 10,12 and 14 lines should be finished, I would be grateful.
Although your chart explains a lot, it doesn't explain why the lines curve the way they do. Could it be heat? I know if you add a bit of arsenic to wheel weights you can heat treat them to 30 BHN. Any ideas?
Ken Gottschall
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