在激光表面改性层中成功地制得了以高硬度氮化钛为增强相的新型快速凝固“原位”耐磨复合材料。
The rapidly solidified in-situ wear resistant composite materials reinforced by hard titanium nitride were successfully fabricated in the laser modified surface layer.
该复合材料由经过表面改性的编织或未编织的天然纤维、聚乳酸和硅烷偶联剂组成。
The composite material is composed of knitted or unknitted natural fiber which is modified at the surface, polylactic acid and silane coupling agent.
阐述了纳米抗菌材料与成纤聚合物(PET)复合材料的表面改性、分散、相容及成型;
The surface modification and dispersion of nano-antibacterial powders, its compatibility with PET polymer and molding of PET matrix nano-antibacterial composite were discussed and investigated.
利用差示扫描量热仪(DSC)研究了炭纤维(CF)表面异氰酸酯化改性后阴离子接枝尼龙6(PA6)对CF/PA6复合材料中PA6的多重熔融行为的影响。
The effect of surface isocyanation of carbon fiber on the melting behavior of PA6 in CF/PA6 composites was studied by Differential Scanning Calorimetry(DSC).
实验结果证明,芳纶表面改性显著提高了其复合材料界面的粘结强度,相反却降低了其界面断裂能。
The results show that the interfacial adhesion strength increased noticeably for composites of active aramid fiber but the fracture energy of the interface decreased.
本文研究的主要内容包括:滑石粉、碳酸钙和硅灰石这三种无机填料的表面改性机理、工艺技术、表征及其填充pp复合材料性能的影响。
The main study includes: surface modification mechanism, technical and token of the inorganic fillers talc, CaCO3 and Wollastonite; effect of fillers on properties of filled PP composite.
用硅烷偶联剂对羟基磷灰石(HA)粉末进行表面改性,用改性后的HA粉末制备了HA/环氧复合材料。
The hydroxyapatite (HA) powder surface modified with silane coupling a gent was used to prepare HA/epoxy composite.
XRD测试表明复合材料的结晶性提高,掺入的经过表面改性的纳米银粒子与基体材料有良好的界面相容性。
XRD examinations revealed that Composite materials have better crystallization performance and nanometer silver particles modified had excellent interface compatibilities with polycarbonate.
本文系统地研究了利用融盐热析出反应进行陶瓷材料表面改性及制备复合材料的机理和工艺。
The mechanism and process of ceramic materials' surface metallization by molten salt reactions have been investigated.
同时论述了剑麻纤维的表面改性对复合材料力学性能的影响。
The influence of surface modifications of sisal fibers on the mechanical properties of the composit …
空心玻璃微球是制备复合泡沫材料的关键原料,对其进行表面改性有利于改善复合材料的性能。
Hollow glass microspheres are used as a key material to produce syntactic foams. Surface modification of the microspheres is very important for improving properties of the foams.
空心玻璃微球是制备复合泡沫材料的关键原料,对其进行表面改性有利于改善复合材料的性能。
Hollow glass microspheres are used as a key material to produce syntactic foams. Surface modification of the microspheres is very important for improving properties of the foams.
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