Fluid enhances dislocation glide and climb, increases the rate of recovery of strained grains and accommodates the fracturing.
流体相促进位错滑移与攀移,并加速应变颗粒的恢复作用,以协调破裂过程。
The major deformation mechanisms were found to be dislocation glide, grain breaking, and geometric dynamic recrystallization (GDRX).
合金的变形机制主要是位错滑移,晶粒碎化和几何动态再结晶机制。
The results show that dislocation starts to glide in HAZ.
结果表明:热影响区位错开始滑移;
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