关键词: 奥氏体不锈钢14.0Cr-1.1Ni-9.2Mn-0.30Cu, 节镍；组织性能；成形性能；奥氏体稳定性；形变诱导马氏体 相变；退火工艺

Abstract:  14.0Cr- 1. 1Ni-9.2Mn-0.30Cu stainless steel was developed on the basis of13.36Cr- 1. 12Ni- 11.2Mn low-nickel austenitic stainless steel, and the metallographic structure, microstructure, mechanical properties and forming properties of austenitic stainless steel with different chemical compositions after solution treatment and cold-rolled annealing are studied, as well as the control laws of austenite stability and cold rolling deformation induced martensitic transformation were analyzed. The results show that the mechanical properties of 14.0Cr- 1. 1Ni-9.2Mn-0.30Cu and that of 13.36Cr- 1. 12Ni- 11.2Mn stainless steel are equivalent, the austenitic structure is fully recrystallized after solution treatment and cold-rolled annealing, the average grain size of cold rolling is 12.6 μm and 14.0 μm respectively, and the microstructure is copper texture{112}<111>the IE (bulge test impression endurance value)and  LDR (Limited Drawing Ratio) of 14.0Cr- 1. 1Ni-9.2Mn-0.30Cu stainless steel are 16.15 and 0.46 respectively, which are better than those of 13.36Cr- 11.2Mn stain- less steel, and the Md30/50 temperature of 14.0Cr- 1. 1Ni-9.2Mn-0.30Cu and 13.36Cr- 1. 12Ni- 11.2Mn stainless steel are 87.02 ℃ and 83.55 ℃ respectively, as Md30/50 high, the austenite stability poor, the deformation introducing martensite volume and cold-rolled deformation resistance increasing, the hardness of annealed steel high. But the hardness after annealing can be improved by reducing the speed of cold-rolled annealing process from 10 m/min to9 m/min.

Key words: Austenitic Stainless Steel 14.0Cr- 1. 1Ni-9.2Mn-0.30Cu, Low-nickel, Microstructure Property, Forming Performance, Austenite Stability, Deformation Induced Martensitic Transformation, Annealing Process