Effect of bainitic transformation during BQ&P process on the mechanical properties in an ultrahigh strength Mn-Si-Cr-C steel

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• 作者：Xiaolu Gui^a ; Guhui Gao^a ; ^{gaogh@bjtu.edu.cn} ; Haoran Guo^a ; Feifan Zhao^a ; Zhunli Tan^a ; Bingzhe Bai^a ; ^b
• 关键词：Quenching and partitioning ; Bainite ; Retained austenite ; Ductility ; Micro-crack
• 刊名：Materials Science and Engineering: A
• 出版年：2017
• 出版时间：27 January 2017
• 年：2017
• 卷：684
• 期：Complete
• 页码：598-605
• 全文大小：2173 K
• 卷排序：684

文摘

A medium carbon Mn-Si-Cr alloyed steel was treated by a novel bainite-based quenching and partitioning (BQ&P) process: after full austenization, the steel was firstly austempered at 300 °C, 320 °C, 340 °C, 360 °C and 380 °C for 30 min, and then quenched to 120 °C, followed by partitioning at 360 °C for 45 min. The multiphase microstructures containing carbide-free bainite (CFB, bainitic ferrite lath plus filmy retained austenite), martensite and retained austenite were characterized by optical microscope, scanning electron microscopy, transmission electron microscopy, X-ray diffraction and dilatometer analysis. An optimum combination of strength and ductility was achieved in the BQ&P steel when the bainitic austempering temperature is 360 °C (ultimate tensile strength: 1495 MPa; uniform elongation and total elongation: 26.2% and 31.8%; the reduction of area: 47.9%). Besides the transformation-induced plasticity effect of the retained austenite and the composite effect of the multiphase after BQ&P treatment, the formation of carbide free bainite also plays a significant role on the enhanced mechanical properties. The carbide-free bainite could improve the damage resistance of the multiphase due to the additional strain-hardening capacity within the local plasticity deformation zone near the tip of micro-cracks. In this case, the fraction and distribution of CFB should be controlled properly and the macrosegregation should be avoided.