Laser forming of steel is a hot forming process with high heating and cooling rate, during which strain hardening, dynamic recrystallization, and phase transformation take place. Numerical models considering strain rate and temperature effects only usually give unsatisfactory results when applied to multiscan laser forming operations. This is mainly due to the inadequate constitutive models employed to describe the hot flow behavior. In this work, this limitation is overcome by considering the effects of microstructure change on the flow stress in laser forming processes of low carbon steel. The incorporation of such flow stress models with thermal mechanical FEM simulation increases numerical model accuracy in predicting geometry change and mechanical properties.
Microstructure Integrated Modeling of Multiscan Laser Forming
Contributed by the Manufacturing Engineering Division for publication in the JOURNAL OF MANUFACTURING SCIENCE AND ENGINEERING. Manuscript received March 2001; Revised September 2001. Associate Editor: K. Stelson.
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Cheng , J., and Yao, Y. L. (April 29, 2002). "Microstructure Integrated Modeling of Multiscan Laser Forming ." ASME. J. Manuf. Sci. Eng. May 2002; 124(2): 379–388. https://doi.org/10.1115/1.1459088
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