Microstructure evolution and mechanical properties influenced by austenitizing temperature in aluminum-alloyed TRIP-aided steel

IF 3.1 2区 材料科学 Q1 METALLURGY & METALLURGICAL ENGINEERING Journal of Iron and Steel Research(International) Pub Date : 2017-11-01 DOI:10.1016/S1006-706X(17)30162-0
Ju-hua Liang , Zheng-zhi Zhao , Cai-hua Zhang , Di Tang , Shu-feng Yang , Wei-ning Liu
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引用次数: 3

Abstract

The Fe-0. 21C-2. 2Mn-0. 49Si-1. 77 A1 transformation induced plasticity (TRIP)-aided steel was heat treated at various austenitizing temperatures under both TRIP-aided polygonal ferrite type (TPF) and annealed martensite matrix (TAM) processes. The microstructure evolution and their effects on mechanical properties were systematically investigated through the microstructure observation and dilatometric analysis. The microstructure homogeneity is improved in TPF steel heated at a high temperature due to the reduced banded martensite and the increased bainite. Compared with the mechanical properties of the TPF steels, the yield strength and elongation of the TAM steels are much higher, while the tensile strength is lower than that of TPF steels. The stability of intercritical austenite is affected by the heating temperature, and thus the following phase transformation influences the mechanical properties, such as the bainite transformation and the precipitation of polygonal ferrite. Obvious dynamic bainite transformation occurs at TAM850, TAM900 and TAM950. More proportion of polygonal ferrite is found in the sample heated at 950 °C. The bainite transformation beginning at a higher temperature results in the wider bainitic ferrite laths. The more proportion of polygonal ferrite and wide bainitic ferrite laths commonly contribute to the lower strength and better elongation. The uniform microstructure with lath-like morphology and retained austenite with high average carbon content ensures a good mechanical property in TAM850 with the product of strength and elongation of about 28 GPa · %.

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奥氏体化温度对铝合金trip辅助钢组织演变及力学性能的影响
Fe-0。21 c - 2。2 mn-0。49也。采用相变诱导塑性(TRIP)辅助钢在不同的奥氏体化温度下进行了TRIP辅助多角形铁素体(TPF)和退火马氏体基体(TAM)热处理。通过显微组织观察和膨胀分析,系统地研究了微观组织演变及其对力学性能的影响。高温加热后,TPF钢的带状马氏体减少,贝氏体增多,组织均匀性得到改善。与TPF钢的力学性能相比,TAM钢的屈服强度和伸长率远高于TPF钢,但抗拉强度低于TPF钢。加热温度影响临界间奥氏体的稳定性,从而导致随后的相变影响力学性能,如贝氏体相变和多边形铁素体的析出。TAM850、TAM900和TAM950发生了明显的动态贝氏体转变。在950℃加热的样品中,多角形铁氧体的比例更高。贝氏体相变开始于较高的温度,产生较宽的贝氏体铁素体板条。多角形铁素体和宽贝氏体铁素体板条的比例越大,强度越低,延伸率越好。TAM850具有均匀的板条状组织和高平均含碳量的残余奥氏体,具有良好的力学性能,强度与伸长率之比约为28 GPa·%。
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来源期刊
CiteScore
4.30
自引率
0.00%
发文量
2879
审稿时长
3.0 months
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