对板厚10 mm AZ61镁合金板材进行了真空电子束焊接数值模拟研究.利用有限元模型以及三维移动双椭球热源模型,采用数值模拟的方法研究了电子束流与焊接过程温度场及焊缝熔深之间的关系.结果表明,建立的模型能够获得电子束深熔型焊接的效果,模拟焊缝成形及焊缝区、热影响区温度场分布与试验焊缝成形及实际电子束焊接特点较为一致,这也证明了该模型在AZ61镁合金电子束平板对焊有限元模拟中有较好的适用性.
The microstructure, thickness, microhardness and wear resistance of single-boronizing, carbonitriding+boronizing and carbonitriding+RE-boronizing layers of 16Mn steel were investigated respectively. Effect of rare earths on microstructure and properties of the penetrated layer were studied and the mechanism of effects of rare earths was discussed. The result showed that the structure, microhardness, brittleness and wear resistance of the penetrated layer after carbonitriding+ RE-boronizing were better than that of conventional boronizing and carbonitriding, especially the wear resistance of boronized layer was increased remarkably. The RE-boronizing layer of the steel is single phase Fe2B, and RE elements enhanced Fe2B (002) direction texture. The distribution of rare earth element (La) in the layer was non-uniform. RE content is higher between borides than that of the interior of borides. An optimum value of the addition of RE element in the agent was 8%. The average service life of the 16Mn steel brick mould treated by carbonitriding+RE-boronizing was 1.5 times as long as the service life of the mould treated by carbonitriding-boronizing.
