Wpływ Wstępnego Plastycznego Rozciągania na Moduł Younga Mosiądzu i Niskowęglowej Stali
It is found that the influence of plastic strain on the modulus is insignificant. Young's modulus of brass slightly increases when the initial plastic strain rises. After elongation to 19%, the highest change of the modulus is 4.4% of the value for annealed metal. It is believed that the increase of modulus is due to the preferred orientation of grains.
For steel stretched to 4% and 7% no change of modulus is observed although it is possible that immediately after plastic deformation the modulus becomes somewhat lower and assumes its initial value after some hours. For, in that time (in the small stress region) loop type stress strain diagrams are observed, the slopes of the initial portion loading and unloading curve of which are 0.5-2.1% lower than the modulus of the annealed metal.
During the tests, attention was paid to some rheological phenomena.
References
[in Russian]
K. HONDA and R. YAMADA, On the change of elastic constant in metals caused by cold working, Sci. Rep. Tôhoku Imperial Univ., 17 (1928), 723.
[in Russian]
T. KAWAI, The effect of cold working on Young's modulus of elasticity, Sci. Rep. Tôhoku Imperial Univ., 19 (1930), 209.
T. KAWAI, On the change of the modulus of rigidity in different metals caused by cold working, Sci. Rep. Tôhoku Imperial Univ., 20 (1931), 681.
J. MUIR, On the recovery of iron from overstrain, Phil. Trans. Roy. Soc. London, 193A (1900), 1.
L. S. SMITH and J. V. HOWARD, The recovery of proportional elasticity in overstrained steel, Proc. Roy, Soc., 137A (1932), 833,
[in Russian]
[in Russian]
J. F. NYE, Własności fizyczne kryształów (przekład z angielskiego), PWN, Warszawa 1962.