The redundant work in strip drawing has been investigated experimentally by the equivalent strain technique. Large differences in the magnitude of the redundantwork factor have been found between the materials used in this investigation which could not be explained in terms of variation in strength or work-hardening rate. A strong positive correlation has beenfound between the redundant-work factor and the magnitude of the relative rate of change of work-hardening rate with strain.
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References
1.
KORBERF. and EICHINGERA.: Stahl u. Eisen, 1940, 60, 829; 854; 882.
2.
HILLR. and TUPPERS. J.: J. Iron Steel Inst., 1948, 159, 353.
3.
GREENA. P. and HILLa.: J. Mechanics and Physics Solids, 1952, 1, 31.
4.
WISTREICHJ. G.: Proc. Inst. Mech. Eng., 1955, 169, 654.
5.
TROZERAT. A.: Trans. ASM, 1964, 57,309.
6.
CADDELLR. M. and ATKINSA. G.: J. Eng. Ind., Trans. ASME Series B, 1968, 90, 411.
7.
JOHNSONR. W. and ROWEG. W.: J. Inst. Metals, 1968, 96, 97.
8.
OSGOODW. R.:I. Aeronaut Sci., 1946, 13, (I), 45.
9.
VOCEE.: J. Inst. Metals, 1948, 74, 537.
10.
VOCEE.Metallurgia, 1955, 51, 219.
11.
WHITTONP. W.: J. Inst. Metals, 1957-58, 86, (9), 417.
12.
BARONH. G. and THOMPSONF. C.: ibid., 1950 –51, 78, 415.
13.
LANCASTERP. R. and ROWEG. W.: Proc. Inst. Mech. Eng., 1963-64, 178, (1), 69.
14.
JOHNSONR. W.: J. Australian Inst. Metals., 1971, 16, (1), 63.