点击次数：
所属单位：材料科学与技术学院
发表刊物：TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA
关键字：aluminum alloy friction stir welding numerical simulation dynamic mesh trace element method temperature distribution whirlpools
摘要：A two-dimensional computational fluid dynamics model was established to simulate the friction stir butt-welding of 6061 aluminum alloy. The dynamic mesh method was applied in this model to make the tool move forward and rotate in a manner similar to a real tool, and the calculated volumetric source of energy was loaded to establish a similar thermal environment to that used in the experiment. Besides, a small piece of zinc stock was embedded into the workpiece as a trace element. Temperature fields and vector plots were determined using a finite volume method, which was indirectly verified by traditional metallography. The simulation result indicated that the temperature distribution was asymmetric but had a similar tendency on the two sides of the welding line. The maximum temperature on the advancing side was approximately 10 K higher than that on the retreating side. Furthermore, the precise process of material flow behavior in combination with streamtraces was demonstrated by contour maps of the phases. Under the shearing force and forward extrusion pressure, material located in front of the tool tended to move along the tangent direction of the rotating tool. Notably, three whirlpools formed under a special pressure environment around the tool, resulting in a uniform composition distribution.
卷号：28
期号：6
页面范围：1216-1225
ISSN号：1003-6326
是否译文：否
发表时间：2018-06-01
收录刊物：SCIE