particle reinforcement 用以改善基体材料性能的颗粒状材料。有延性颗粒增强体和刚性颗粒增强体。 在基体中引入第二相颗粒,使材料的力学性能得到改善,它使基体材料的断裂功能提高。颗粒增强体的形貌、尺寸、结晶完整度和加入量等诸因素都会影响复合材料的力学性能。
... 颗粒增强体;particle reinforcement 增强体;reinforcement 二硼化钛;碳氮化钛;钛白,二氧化钛;Titanium boride;titanium diboride ...
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硼化钛颗粒增强体 titanium boride particle reinforcement
碳化硼颗粒增强体 boron carbide particle reinforcement
氧化铝颗粒增强体 alumina particle reinforcement
氮化铝颗粒增强体 aluminum nitride particle reinforce-ment
刚性颗粒增强体 rigid particle reinforcement
延性颗粒增强体 ductile particle reinforcement
石墨颗粒增强体 graphite particle reinforcement
碳化钛颗粒增强体 titanium carbide particle reinforcement
碳化硅颗粒增强体 silicon carbide particle reinforcement
结论铁合金颗粒使成骨细胞OPG基因表达下降,使破骨细胞分化、活化功能增强,这可能是导致假体松动的骨溶解机制之一。
Conclusion Titanium alloy particles decrease expression of OPG gene in human osteoblasts, and this may contribute to the differentiation of osteoclasts which may lead to the periprosthetic osteolysis.
采用搅拌铸造法,在纯铝中加入粉煤灰微珠颗粒作为增强体,制备铝基粉煤灰微珠复合材料。
The effect of various parameters on aluminum matrix composite including fly ash micro-sphere particles act as reinforced phase was investigated by using stirring casting technique.
结论:小儿增食灵颗粒能增强幼龄大鼠离体小肠平滑肌的收缩功能。
Conclusion: Children Zengshiling Granul can enhance the contraction function of isolated small intestinal smooth muscle of infancy rats.
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