Abstract
The change of stress and temperature in the conform forming process has been studied. On the basis of the law of momentum, the law of momantum moment and the law of energy conservation, the governmental differential equations of stress and temperature in the conform metal forming process have been derived, whose definite conditions are given by material mechanics, elastic machanics and plastic mechanics. The analytic solution of these equations has been successfully obtained and as a result, the solid foundations and scientific guide for the further development of this prospective metal processing technique have been established.
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Green D. Hydrospin—A new concept of extrusion. J Institute of Metal, 1971, 99(10): 76–80
Church Fred L. Extrusion goes continuous: process promises economies. Modern Metals, 1984, 40(11):34–40
Tirosh J, Grossman G, Gordon G. Theoretical and experimental study of the conform metal forming process. J Eng Ind, 1979, 101(2):116–120
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Synopsis of the first author Peng Yuelin. professor, born in 1944, majoring in ferrous and nonferrous metallurgy, metal forming, numerical analysis and other applied mathematics and applied mechanics.
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Peng, Y., Hu, J. & Mo, B. Analysis of stress and temperature in the conform forming process—Foundation theory. J. Cent. South Univ. Technol. 3, 153–158 (1996). https://doi.org/10.1007/BF02652196
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DOI: https://doi.org/10.1007/BF02652196