1) aramid fibre intensified up plate
芳纶纤维强化UP板
2) aramid fiber
芳纶纤维
1.
General Situation of Development of Surface Treatment Technology for Aramid Fiber;
芳纶纤维表面处理技术的发展概况
2.
Application of aramid fiber in tyre industry;
芳纶纤维在轮胎工业中的应用
3.
The comparing research on the aramid fiber and carbon fiber strengthening concrete structure;
芳纶纤维与碳纤维加固混凝土结构的比较研究
3) Kevlar fiber
芳纶纤维
1.
Interfacial properties of phosphorous acid modified Kevlar fiber reinforced epoxy resin composites;
芳纶纤维的磷酸表面处理及其树脂基复合材料界面性能
2.
Epoxy matrix for Kevlar fiber reinforced filament wound composites;
磷酸处理芳纶纤维的缠绕环氧树脂基体
3.
The seismic performance of masonry structure strengthened by kevlar fiber;
应用芳纶纤维加固砖砌体的抗震性能
4) aramid fibre
芳纶纤维
1.
After heat-calendering,glass transition temperature of paper-based aramid fibre is heightened with its increase of the cohesive energy density and crystallinity.
测定了热压光前后纸基芳纶纤维的内聚能密度、结晶度大小、粘度及粘均相对分子质量,研究了芳纶纸基纤维玻璃化温度与内聚能密度及结晶度的关系。
2.
The aramid fibre was applied in the guiding optical cable, because of its outstanding performance.
芳纶纤维由于其高耐温、高强、高模等优异性能,被应用于制导光缆上。
3.
The interfacial bond behaviour of the composite of AFR resin reinforced with aramid fibre was investigated by the methods of macromechanics,micromechanics and contact angle.
为了改善芳纶纤维复合材料的界面粘结性能,从自制树脂基体入手,针对芳纶纤维的结构特点,合成了一种新型树脂(AFR)作为基体,制备了芳纶/AFR复合材料。
5) aramid fibers
芳纶纤维
1.
Therefore, aramid fibers can be protected from photodegradation and prolonged their longevity of use by addition of proper anti-UV agers capable of inhibiting light within wavelength.
芳纶是一种光敏感的高分子材料,容易在紫外线照射下发生光老化降解,而280~320nm范围的紫外光对芳纶光降解作用最强,采用适当的抗紫外老化剂以阻隔这一波段的紫外光将可以提高芳纶纤维的使用寿命。
6) Kevlar
[英]['kevlɑ:] [美]['kɛvlɑr]
芳纶纤维
1.
Surface Treatment and Dipping Procrss of Kevlar Fiber;
芳纶纤维表面处理与浸渍工艺研究
2.
Study of the Tribological Properties of Kevlar Fabric;
芳纶纤维织物摩擦磨损性能的研究
3.
According to the characteristics of kevlar request of wovenfabric,network process is used for preparing processes of kevlar.
根据芳纶纤维的特性及织物要求,采用了以网络加工为主的芳纶纤维制织的准备工艺,利用正交实验法,确定了芳纶纤维的网络加工工艺参
补充资料:纤维强化
fiberstrengthening:用高强度的纤维同适当的基体材料相结合,来强化基体材料的方法称为纤维强化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条