Simulation of the Temperature, Microstructure and Mechanical Properties of Cold-Rolled Stainless Steel Sus430 During Continuous Annealing
- 1 Downloads
Mathematical models of variation of the temperature, microstructure and mechanical properties of cold-rolled steel SUS340 in a continuous annealing furnace are derived using experimental results and numerical methods. The results obtained are used for computing the mechanical properties of SUS340 under continuous annealing and for developing new annealing modes with the help of the model suggested.
Key wordsstainless steel SUS340 horizontal furnace for continuous annealing numerical simulation mechanical properties
The work has been supported by the Fundamental Research Funds for the Central Universities (Project Number FRF-AS-10-005B).
- 1.B. Yan, Stainless Steel: Handbook, Chemical Industry Press, Beijing (2009), p. 30.Google Scholar
- 2.F. J. Humpgrey and M. Hatherly, Recrystallization and Related Annealing Phenomena, Oxford Press, London (2004), p. 2.Google Scholar
- 4.B. C.Wu, F. Shi, and X. Y. Cheng, “Effects of annealing temperature on microstructure, property and texture of 08Al coldrolled sheet,” Trans. Mater. Heat Treat. [in Chinese], 32(12), 61 (2011).Google Scholar
- 5.D. X. Su, W. C. Xu, and H. P. Li, “Influence factors analysis on the measurement of the plastic strain ratio r value of metallic sheets,” Part A Phys. Test [in Chinese], 42(3), 113 (2006).Google Scholar
- 9.R. F. Dou, Z. Wen, and Q. Li, “Mathematical model based furnace temperature optimization strategy for continuous annealing furnace,” J. Zhejiang Univ. [in Chinese], 41(10), 1735 (2007).Google Scholar
- 11.C. G. Spinola, J. M. Canero-Nieto, and C. J. Galvez-Fernandez, “Real-time supervision of annealing process in stainless steel production lines,” J. Metall. Eng., 3(1), 1 (2014).Google Scholar
- 13.R. F. Dou and Z. Wen, Mathematical Model Based Furnace Temperature Optimization Strategy for Continuous Annealing Furnace, Metall. Industry Press, Beijing (2014), p. 120.Google Scholar
- 14.M. Holger, Heat and Mass Transfer between Impinging Gas Jets and Solid Surfaces: Advances in Heat Transfer, Academic Press, New York (1977), p. 40.Google Scholar