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case-hardening C-1018 versus A36
- Thread starter Bob_3
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- #3
Here's the compositions I found:
A36
Carbon, C <= 0.25 %
Copper, Cu 0.20 %
Iron, Fe 98 % As Remainder
Manganese, Mn 1.03 %
Phosphorous, P <= 0.040 %
Silicon, Si 0.28 %
Sulfur, S <= 0.050 %
1018
Carbon, C 0.14 - 0.20 %
Iron, Fe 98.81 - 99.26 % As remainder
Manganese, Mn 0.60 - 0.90 %
Phosphorous, P <= 0.040 %
Sulfur, S <= 0.050 %
Maybe as I write I'm answering my own questions, but it seems to be A36 is more of a commercial grade with minimum alloying limits, whereas C-1018 is more of an engineering grade so the properties and hence performance are more closely controlled. Is this thinking correct?
The qist of my original question is: Would there be a more closely controlled and predictable response to nitride case hardening with C1018, and would it be more random and loosly controlled with A36?
If my line of reasoning is correct, I believe the answer is Yes...correct?
A36
Carbon, C <= 0.25 %
Copper, Cu 0.20 %
Iron, Fe 98 % As Remainder
Manganese, Mn 1.03 %
Phosphorous, P <= 0.040 %
Silicon, Si 0.28 %
Sulfur, S <= 0.050 %
1018
Carbon, C 0.14 - 0.20 %
Iron, Fe 98.81 - 99.26 % As remainder
Manganese, Mn 0.60 - 0.90 %
Phosphorous, P <= 0.040 %
Sulfur, S <= 0.050 %
Maybe as I write I'm answering my own questions, but it seems to be A36 is more of a commercial grade with minimum alloying limits, whereas C-1018 is more of an engineering grade so the properties and hence performance are more closely controlled. Is this thinking correct?
The qist of my original question is: Would there be a more closely controlled and predictable response to nitride case hardening with C1018, and would it be more random and loosly controlled with A36?
If my line of reasoning is correct, I believe the answer is Yes...correct?
Guest
I believe you may be overthinking this.
Any particular grade of carbon steel has broad variability in tensile properties between random samples, which has as much to do with processing method (i.e., hot rolled or cold finished) as with composition. These two grades should be indistinguishable in case hardening response. I would pay more attention to surface quality: both roughness and an absence of mill decarburization.
"Everyone is entitled to their own opinions, but they are not entitled to their own facts."
Any particular grade of carbon steel has broad variability in tensile properties between random samples, which has as much to do with processing method (i.e., hot rolled or cold finished) as with composition. These two grades should be indistinguishable in case hardening response. I would pay more attention to surface quality: both roughness and an absence of mill decarburization.
"Everyone is entitled to their own opinions, but they are not entitled to their own facts."
- Thread starter
- #5
Thank you for the feedback. Yes, I'd likely overthink it, but I suppose that's what we all do...and why these forums are so nice to have an on-line peer review. But I came here for answers and I got them.
I guess it comes down to the classifying bodies calling essentially the same material both AISI C-1018 and ASTM A36.
Thanks again![[smile]](/data/assets/smilies/smile.gif "[smile] [smile]")
I guess it comes down to the classifying bodies calling essentially the same material both AISI C-1018 and ASTM A36.
Thanks again
dbooker630
Materials
Bob,
For a heat treating application I would source the steel to meet SAE 1018 rather than the ASTM designation. If it was riveting, bolting or welding I see no issue with A36. Yes, you did answer your own question.
For a heat treating application I would source the steel to meet SAE 1018 rather than the ASTM designation. If it was riveting, bolting or welding I see no issue with A36. Yes, you did answer your own question.
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