Spot welding process is completed in very short time and there are many factors affecting on the generation of welding defects. There are difficult to control experimental factors. Even more this is hard to monitor of distribution stress in practical cases. And too much time and expense are required for the experimental trials to find the proper welding condition. The purpose of this study is to investigate the applicability of infrared thermagraphy for the evaluation of weldability in spot weldment. There are some problems in the destructive methods. Furthermore, it is very complicated to apply it on actual structure because of time and cost consuming. Therefore, a nondestructive method for estimating the nugget size has been in continual demand. In this study, thermoelastic stress analysis adopting an infrared thermography for nondestructive evaluation of spot weldability is investigated. Using temperature and stress distribution obtained by infrared camera from adiabatic heat expansion under a repeated load of sinusoidal waves, we estimated the effective nugget of spot welded specimens. To examine the evaluated effective nugget size in spot weldments, they have been compared with the results of microstructure observation from a 5% Nital etching test.(C) 2005 Springer Science + Business Media, Inc.
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机译:点焊过程在很短的时间内完成,并且有许多因素会影响焊接缺陷的产生。有难以控制的实验因素。在实际情况下,这甚至更难监控分布压力。为了找到合适的焊接条件,实验试验需要太多的时间和金钱。这项研究的目的是研究红外热成像技术在点焊件可焊性评估中的适用性。破坏性方法存在一些问题。此外,由于要花费时间和成本,将其应用于实际结构非常复杂。因此,一直需要用于估计块金大小的非破坏性方法。在这项研究中,研究了采用红外热成像技术对点焊性进行无损评估的热弹性应力分析。使用红外摄像机通过在重复正弦波载荷下绝热热膨胀获得的温度和应力分布,我们估算了点焊试样的有效熔核。为了检查点焊件中评估的有效熔核大小,将其与5%硝酸盐腐蚀试验的显微组织观察结果进行了比较。(C)2005 Springer Science + Business Media,Inc.
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