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Abstract

A formula—Nadai's bending formula—is derived which enables the tension (or compression) stress-strain curve for a material to be obtained from the curve relating bending moment to curvature for a beam of solid rectangular section. The method is extended to give a formula which covers deformations in which reversals of plastic strain occur.

The results obtained from a unidirectional bending test made on annealed copper are compared with those obtained from a tensile test made on the same material and the accuracy of the stress-strain values obtained from the bending test is discussed. The results obtained from a reversed bending test are also compared with those obtained from a tension-compression test in which a specimen was first stretched and then compressed to its original length.

The limitations imposed by this method of obtaining the stress-strain curve for a material are examined and the advantages its presents in the study of the behaviour of materials under uniaxial stress are outlined.

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References

Nadai

Theory of flow and fracture of solids 1963 1, 359 (McGraw-Hill Book Co. Inc., New York, Toronto, and London).

Nadai

Theory of flow and fracture of solids 1963 1, 359 (McGraw-Hill Book Co. Inc., New York, Toronto, and London) 349.

Miller

K. J.

Chandler

D. C.

‘High strain torsion fatigue of solid and tubular specimens’, Contribution to discussion by Oldroyd, P. W. J. Proc. Instn mech. Engrs 1969–70 184 (Pt 1), 441.

Miller

K. J.

Chandler

D. C.

‘High strain torsion fatigue of solid and tubular specimens’, Contribution to discussion by Oldroyd, P. W. J. Proc. Instn mech. Engrs 1969–70 184 (Pt 1) 439.

White

D. J.

Horwood

G. P.

‘Cyclic stress-strain relations from bending and push-pull tests’, J. Strain Analysis 1971 6, 99.

Tension-compression stress-strain curves from bending tests

Abstract

Abstract

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References