同时研究发现了钢丝在拉拔方向上形成的以第二相硬质颗粒为核心的梭形微孔洞。
The results also presented that there were so many shuttle-shaped micro holes in this steel wires, lugging along drawing axis and cored by the hard particles.
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。
Fluid enhances dislocation glide and climb, increases the rate of recovery of strained grains and accommodates the fracturing.
对三维气粒两相各向同性湍流进行了直接数值模拟以研究悬浮在其中的颗粒的运动。
Direct numerical simulations were conducted to investigate the behavior of heavy particles in homogeneous isotropic turbulence.
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