层间温度对690MPa级HSLA钢熔敷金属裂纹扩展功的影响
Effects of interpass temperature on crack propagation energy in deposited metal of 690 MPa grade HSLA steel
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摘要: 对层间温度分别在80,200℃的690 MPa级HSLA钢熔敷金属进行了示波冲击试验,通过金相显微镜(OM)、扫描电子显微镜(SEM)和电子背散射衍射(EBSD)分析手段,并结合载荷-位移曲线,对阻碍裂纹扩展的因素进行了探讨.结果表明,层间温度为80,200℃时,冲击吸收功分别为103.9,63.2 J,裂纹形成功和扩展功分别相差6.7,34 J.扩展功不同是造成冲击吸收功差异的主要原因.对裂纹扩展阶段研究表明,层间温度为80,200℃时,纤维区扩展的最大距离分别为1.68,0.6 mm;二者晶状区断口都以准解理为主,但在层间温度为80℃时,除准解理外还发现了韧窝带,说明裂纹在层间温度为80℃的熔敷金属中扩展的阻碍较大.导致扩展功不同的主要因素是大角度晶界的数量和晶界位相差在55°~60°之间比例的不同.Abstract: Instrumented impact test was conducted on the deposited metal of 690 MPa grade HSLA steel when the interpass temperature was 80℃ and 200℃, respectively.The factors to hinder crack propagation were discussed with optical microscope(OM), scanning electron microscope(SEM) and electron backscatter diffraction(EBSD) combining with load-distance curve.The results showed that the impact energy of the deposited metals made with interpass temperature of 80℃ and 200℃ was 103.9 J and 63.2 J, respectively.The gap between crack initiation energy and propagation energy was 6.7 J and 34 J for two interpass temperatures, respectively.The difference of impact energies was mainly attributed to the propagation energy.During the crack propagation, the maximum propagation distance of the dimple area was 1.68 mm and 0.6 mm for 80℃ and 200℃ of interpass temperature, respectively.The fractography of the brittle fracture areas was mainly of cleavage, but dimple bands were observed in the deposited metal with interpass temperature of 80℃.It was concluded that the proportion of high angle grain boundaries of 55°-60° determining the impact energy.