Got a Material Property Data for a Steel as Follows
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Transcript of Got a Material Property Data for a Steel as Follows
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8/6/2019 Got a Material Property Data for a Steel as Follows
1/1
got a material property data for a steel as follows.
1.0.2% of proof load 358kg
2.0.2% of proof stress 28.64(kg/sqmm)
My questions are
1)what is proof load
2)what is 0.2% of proof load. Why 0.2%? Why not 0.3%
3)How this proof load is arrived while testing the specimin in a universal tensile testing machine?
FredGarvin
Oct12-05, 01:25 PMProof load is usually another term for the load associated with they yield point. Since it is a steel, it is customary to
establish the elastic portion of the stress-strain curve and thus the yield point at a .2% offset. It is myunderstanding that .2% was agreed upon to use as the offset because not all materials have a distinct yield point.
Take a look here (scroll down to measures of yielding): http://www.key-to-steel.com/Articles/Art43.htm
Astronuc
Oct13-05, 09:15 AMFred nailed this one right on!
If one checks a glossary in a reference book, one will find -
proof loadA predetermined load, generally some multiple of the service load, to which a specimen or structure is submitted
before acceptance for use.
However,proof stress
(1) A specified stress to be applied to a member or structure to indicate its ability to withstand service loads. (2)The stress that will cause a specified small permanent set in a material.
And it is the second definition which applies here.
IIRC, 0.1% strain offset has also been used in addition to the 0.2% offset, in the US. According to ASM's "Atlas of
Stress-Strain Curves", in the UK (and perhaps outside of North America), offset yield strength is referred to asproof stress, and 0.1% or 0.5% is used.
The point of choosing 0.2% is that it is easier that 0.1% and not as much as 0.5%. Using the offset "avoids the
practical difficulties of measuring the elastic or proportional limit" of a material. This is not so much a problemthese days with digitally controlled tensile test systems, but it was significant 25 or more years ago before high
quality digital electronics were available.
The idea was to get as close as reasonably possible to the elastic limit.
CyclovenomOct13-05, 12:22 PM
Well, when one a material doesn't has an obvious fluency point, and it has great unit strains after it has exceeded
its proportional limit, you can get an arbitrary fluency stress by that method, the offset method. It's basicly astraight line on the stress-strain diagram, paralell to the initial linear part of the curve, but it displaces certainstandard unit strain, in this case 0.2%. The intersection of the displaced line with the curve defines the fluency
stress. This stress is obtained arbitraly and it's not a physical property of the material. However, it can be used asthe fluency stress of the material.