Effect of Welding Thermal Cycling on Microstructures and Cryogenic Impact Toughness of Medium-Mn Low-Temperature Steel

Qing Sun, Yu Du, Xiaonan Wang, Tao Liu, Zhen Tao, Lei Li, Zhihui Liao, Linxiu Du
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Abstract

This work studied the effect of welding thermal cycling on the microstructures and cryogenic impact toughness of medium-Mn low-temperature steel by single-pass welding thermal simulation test. The microstructures of the heat-affected zone (HAZ) were characterized by optical microscopy, electron backscatter diffraction, X-ray diffraction, and transmission electron microscopy. The results indicated that the microstructures of fine-grain HAZ are fine-lath martensite with film-like retained austenite in the heat input range of 10 ~ 30 kJ/cm. Meanwhile, fine-grain HAZ has excellent low-temperature impact toughness, and the impact energy tested at − 40 °C can reach about 245 J. The coarse martensitic packet and block in the coarse grain HAZ seriously deteriorated the cryogenic impact toughness, and the greater the heat input, the worse the cryogenic impact toughness. The impact energy tested at − 40 °C was 71 J when the heat input was 10 kJ/cm. The cryogenic impact toughness of HAZ gradually deteriorated with the peak temperature increase because of the decrease of retained austenite content and the increase of martensitic lath width.

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焊接热循环对中锰低温钢微观结构和低温冲击韧性的影响
本研究通过单程焊接热模拟试验研究了焊接热循环对中锰低温钢微观结构和低温冲击韧性的影响。通过光学显微镜、电子反向散射衍射、X 射线衍射和透射电子显微镜对热影响区(HAZ)的微观结构进行了表征。结果表明,在 10 ~ 30 kJ/cm 的热输入范围内,细晶粒 HAZ 的微观结构是细板条马氏体与薄膜状残留奥氏体。同时,细晶粒 HAZ 具有优异的低温冲击韧性,零下 40 ℃ 时的冲击能可达 245 J 左右。粗晶粒 HAZ 中的粗大马氏体包裹和块状结构严重恶化了低温冲击韧性,热输入越大,低温冲击韧性越差。当输入热量为 10 kJ/cm 时,在零下 40 °C 测试的冲击能量为 71 J。随着峰值温度的升高,HAZ 的低温冲击韧性逐渐恶化,原因是残余奥氏体含量减少,马氏体板条宽度增加。
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