采用挤压铸造法制备出二维碳纤维织物增强镁基复合材料,并对其基本性能进行了研究。
Two dimensional carbon fiber fabric reinforced magnesium matrix composites were prepared by squeeze casting technology, and their basic properties were studied.
文章利用玻璃纤维编织一种新型双轴向增强纬编间隔织物,并制作了该种结构的织物增强复合材料。
A new kind of biaxial spacer weft-knitted fabric was knitted using glass fiber, and then its reinforced composite was manufactured.
结果表明,复合材料的变形性能与增强纤维的含量,织物的组织结构及参数,拉伸方向等因素有关。
The experiment results indicate the deformation properties of composites are affected by fiber volume fraction, fabric structure and parameter, tensile direction etc.
采用先驱体转化法制备了2.5维石英纤维织物增强氮化物陶瓷基复合材料。
Using the polymeric precursor impregnation and pyrolysis method, 2.5-dimensional braided silica fiber-reinforced nitride-based composites(2.5D-SRNCs)were prepared.
再以预处理后的新酚树脂为基体、乙炔炭黑为导电填料、玻璃纤维织物为增强材料制备了导电复合材料;
The modified xylok resin was subsequently blended with glass cloth and acetylene black to generate a new conductive composite.
再以预处理后的新酚树脂为基体、乙炔炭黑为导电填料、玻璃纤维织物为增强材料制备了导电复合材料;
The modified xylok resin was subsequently blended with glass cloth and acetylene black to generate a new conductive composite.
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