...的稳定性 5.6.2 合金凝固时液/固相界面的稳定性 5.7 凝固微观组织 5.7.1 强制性生长和自由生长 5.7.2 胞晶的形成(Cell Formation) 5.7.3 胞状树枝晶(Cellular Dendrite)及柱状树枝晶(Columnar Dendrite) 5.7.4 自由树枝晶 5.7.5 凝固参数和微观组织形态之间的关...
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疲劳裂纹扩展阶段裂纹尖端附近为形成于铁素体晶粒内的位错胞及亚晶。
Dislocation cell and sub grain formed in ferrite grain are found at the stage of fatigue crack propagation in the area of crack tip.
孪晶自身相互交割和位错的滑移相互协调,形成了细小的孪晶和胞状组织;
Twin-twin self-intersection and dislocation slipping were coordinated, the refined twins and cystiform microstructure were formed.
结果表明,激光处理后试样表面熔凝区的组织主要为胞状枝晶组织,经后续热处理可转变为细小的等轴晶粒组织,并形成了良好的超塑连接条件。
The results show that, after laser surface processing, a melt layer with cellular-dendrite structure is formed, which could transform into very fine-grained structure during the annealing treatment.
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