由于微结构效应,基于梯度塑性理论的剪切带内部的最大塑性剪切应变及最高温度的预测值高于经典理论的预测值。
The prediction values of shear strain and temperature in shear band based on gradient-dependent plasticity are higher than those by use of classical elastoplastic theory.
超深亚微米半导体结构中的局域微应力、应变的精确测量通常必须借助复杂的微结构分析、测量手段。
The accurate measurements of local micro-stress and strain in ultra deep sub-micron semiconductor structures usually resort to complicated microstructure analysis, measurement methods.
结果:OSAHS组腭咽组织中存在明显的脂质浸润,同时伴有小唾液腺类型改变,其超微结构呈现相应变化及细胞缺氧性改变;
Result:There existed obvious fatty infiltration in the palatopharyngeal tissue of OSAHS patients, and the type of the minor salivary glands changed.
结果:OSAHS组腭咽组织中存在明显的脂质浸润,同时伴有小唾液腺类型改变,其超微结构呈现相应变化及细胞缺氧性改变;
Result:There existed obvious fatty infiltration in the palatopharyngeal tissue of OSAHS patients, and the type of the minor salivary glands changed.
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