The evolutions of microstructure and mechanical properties of the welding heat-affected zone in 800MPa-grade complex phase steel

IF 1.6 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Yue Wang, Xianchun Dong, Yang Yu, Kaiguang Hu, Bing Yu, Shuhai Chen
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Abstract

A thermomechanical simulator Gleeble 3800 was used to simulate the thermal cycles experienced by various heat-affected zones (HAZ) during the welding process. The influence of peak temperature (Tp, 500°C~1320°C) on the hardness, microstructure, precipitates, and properties of complex steel 780FB with microalloyed elements Ti, Nb, and V was systematically studied. The contributions of dislocation strengthening, precipitation strengthening, fine grain strengthening, and phase transformation strengthening increments to strength changes of samples after different thermal cycles were quantified, and the calculated results were found to be consistent with the experimental data. Compared with 780FB, there was little change in microstructure and properties when Tp was 500°C. When Tp was 650°C, the increase in VC density from 43/μm2 to 288/μm2 caused the enhancement of hardness and strength. The precipitation strengthening increment (49.84MPa) played a dominant role in strength improvement. As partial bainite in the microstructure of 780FB transformed into ferrite at Tp of 800°C, the weakening of phase transformation strengthening (-57.5MPa) became the main factor in strength change. The softening and strength reduction further increased when Tp was up to 980°C, as 780FB completely recrystallized and transformed into ferrite and MA islands. The phase transformation strengthening further reduced by 74.75MPa. When Tp was 1320°C, the VC density decreased from 43/μm2 to 13/μm2, and the (Ti,Nb)C density decreased from 34/μm2 to 14/μm2, leading to severe grain growth (2.24μm to 19.89μm) and bainite transformation. The decrease in precipitation strengthening (-26.86MPa) and fine grain strengthening (-87.91MPa) counteracted with the increase in phase transformation strengthening (51.62MPa), resulting a slight decrease in hardness and strength.

800MPa 级复相钢焊接热影响区显微组织和力学性能的演变
使用热机械模拟器 Gleeble 3800 模拟了焊接过程中各种热影响区(HAZ)所经历的热循环。系统研究了峰值温度(Tp,500°C~1320°C)对含有微合金元素 Ti、Nb 和 V 的复合钢 780FB 的硬度、微观组织、析出物和性能的影响。量化了位错强化、析出强化、细晶粒强化和相变强化增量对不同热循环后试样强度变化的贡献,发现计算结果与实验数据一致。与 780FB 相比,Tp 为 500°C 时,微观结构和性能变化不大。当 Tp 为 650°C 时,VC 密度从 43/μm2 增加到 288/μm2,从而提高了硬度和强度。沉淀强化增量(49.84MPa)对强度的提高起了主导作用。由于 780FB 显微结构中的部分贝氏体在 800°C 时转变为铁素体,相变强化的减弱(-57.5MPa)成为强度变化的主要因素。当温度升高到 980°C 时,软化和强度降低进一步加剧,因为 780FB 完全再结晶并转化为铁素体和 MA 岛。相变强化进一步降低了 74.75MPa。当 Tp 为 1320°C 时,VC 密度从 43/μm2 降至 13/μm2,(Ti,Nb)C 密度从 34/μm2 降至 14/μm2,导致严重的晶粒长大(2.24μm 至 19.89μm)和贝氏体转变。沉淀强化(-26.86MPa)和细晶粒强化(-87.91MPa)的减少与相变强化(51.62MPa)的增加相互抵消,导致硬度和强度略有下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Isij International
Isij International 工程技术-冶金工程
CiteScore
3.40
自引率
16.70%
发文量
268
审稿时长
2.6 months
期刊介绍: The journal provides an international medium for the publication of fundamental and technological aspects of the properties, structure, characterization and modeling, processing, fabrication, and environmental issues of iron and steel, along with related engineering materials.
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