Primarygun Posted November 12, 2004 Posted November 12, 2004 Adding carbon to steel makes it harder and stronger. Is this true for all metals? Could you add carbon to titanium or vanadium to make them even harder and stronger? On the contrary, why adding sulphur to metal to give a softer metal? I could imagine there's no chemical reaction.
pulkit Posted November 12, 2004 Posted November 12, 2004 No there is no chemical reaction involved. The hardness is achieved due to the structure and packing of Fe itslef. I do not think you can make generic statements about carbon hardening metals though, as metals would have different types of structures and varied atomic sizes.
Gilded Posted November 12, 2004 Posted November 12, 2004 "I do not think you can make generic statements about carbon hardening metals though, as metals would have different types of structures and varied atomic sizes." Yeah. Some metal's do usually get other rather interesting things added to them, though. A good example is aluminum or titanium.
YT2095 Posted November 12, 2004 Posted November 12, 2004 Carbon and silicon in Iron will make them harder and more resistant to wear, Iron with carbon in is known as Steel at that point. other metals such as Alu and Gold and Silver have traces of copper added for hardness. Alu with copper is known as Duralumin it`s used in aircraft too, but it will "work harden" also making ragular check-ups for cracks necesary. a topic like this can go on forever though. Heat treatment is also important as that affects the metalic crystal size and thus its properties this seriously could go on forever!
Perennial Posted November 12, 2004 Posted November 12, 2004 Yep, take a chemical analysis of any nowadays steel and got your work cut out for you. Sure the term "stronger" is something got to be careful here ... add enough carbon and we're talking about cast irons, the other end resembling more glass than steel. Hardening mechanisms of metals might be an interesting topic itself.
YT2095 Posted November 12, 2004 Posted November 12, 2004 yeah, "Harder" can be taken to mean a few things to the un-initiated, harder usualy mean Scratch resistant, but is also synonymous with "Brittle" in many instances. Case hardening with cardon is again a different story, the outside is still "brittle" but since it`s all made of one peice the inner part is still regualr steel so hitting it with a hammer wont effect it, whereas cast iron will shatter as the marzites and crystal structure run throughout. alloys of Chromium and Vanadium again make a different kind of steel (stainless) and there are gradients of stainless steel too...
YT2095 Posted November 12, 2004 Posted November 12, 2004 and spider webbing is strong than That! ) your point?
Primarygun Posted November 13, 2004 Author Posted November 13, 2004 Is it possible to make an alloy ( mixed with carbon also called alloy?) harder than diamond?
YT2095 Posted November 13, 2004 Posted November 13, 2004 if by "Harder" you mean it will out perform Diamond in a scratch test, then non that I`m aware of, no.
Perennial Posted November 13, 2004 Posted November 13, 2004 Some diamond like get to a same order but still not too close as far as I know (they may have better other properties, like tribological ones, but not harder). For example DLC coatings used widely commercially (diamond like carbon) can have a hardness of about 2k HV while diamond is typically closer to 10k.
YT2095 Posted November 13, 2004 Posted November 13, 2004 and some metal Carbides and Nitrides are very hard too, but non as hard as diamond.
Perennial Posted November 13, 2004 Posted November 13, 2004 Yeah, I've somehow gotten the idea for diamond being the "ultimate" and whether you can even go past it being questionable ... with the fully covalent 3D bonding and resulting extreme stiffness of it.
Recommended Posts
Create an account or sign in to comment
You need to be a member in order to leave a comment
Create an account
Sign up for a new account in our community. It's easy!
Register a new accountSign in
Already have an account? Sign in here.
Sign In Now