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- Keywords aramid fiber;application;tyre; 芳纶纤维;应用;轮胎;
- Keywords aramid fiber;twisting;strength retention;twist;cord; 芳纶纤维;加捻;强力保持率;捻度;帘线;
- Keywords aramid fiber;tire rubber;RFL;modification;adhesion; 芳纶;轮胎橡胶;间苯二酚-甲醛-胶乳体系;改性;粘结;
- Keywords Aramid fiber;Rubber;Sealing material;Thermal oxidizing aging; 芳纶纤维;橡胶基体;密封材料;热氧老化;
- Keywords Aramid fiber;rubber;surface treatment;active adhesion;dipping; 芳纶;橡胶;表面处理;粘合活化;浸渍;
- Keywords Aramid fibers;rubber;RF resin;RFL latex film;the mechanisms of bonding;dipping compounds;dipping technology; 芳纶纤维;橡胶;RF树脂;RFL胶膜;粘合机理;浸渍配方;浸渍工艺;
- Keywords aramid fiber;dielectric barrier discharge(DBD);interfacial property;hydrophilicity;tensile strength;interfacial shear strength; 关键词芳纶纤维;介质阻挡放电等离子体;浸润性;界面性能;拉伸强度;剪切强度;
- A popular use of Kevlar aramid fibers is in the manufacture of tire cord. 凯夫拉纤维多用于轮胎帘子布的生产。
- The most popular aramid fiber on the world market is Kevlar. 世界市场上最常用的芳纶纤维是凯夫拉纤维。
- The researches of the thermal and photo degradations of aramid fibers are systematically discussed. 摘要阐述了芳纶的热、光老化降解研究的进展情况。
- Vad der Waals force of the aramid fibers, favor the penetration of dyes into the fibers and increase the dye pickup. 通过采用化学助剂使芳纶分子之间的间隙增大,降低芳纶分子间的范德华力,有利于染料进入纤维内部,提高染料的上染率。
- This model can be used to predict the tensile properties of aramid fiber. 此模型对芳纶的抗拉伸性能有预测作用。
- Production of differential chemical fiber and high-tech chemical fibers such as aramid fiber, urethane elastic fiber, carbon fiber, etc. 差别化化学纤维及芳纶、氨纶、碳纤维等高新技术化纤生产。
- The present situation of application technology were analysed, and the trend of development in production and application of aramid fibers were forecasted. 预测对位芳纶生产技术和应用技术的发展趋势。
- Meanwhile,the hook strength and the knot strength of aramid fiber are also introduced. 同时,对芳纶的抗钩接强度和抗打结强度也作了简介。
- The sisal pulp and aramid fiber were chose to fabricate the wet paper-base friction materials. 本文采用高性能芳纶纤维和剑麻纤维为原料制备湿式纸基摩擦材料。
- It was the important reason that the aramid fiber improved the tribological behaviors of NBR. 加入芳纶对NBR摩擦磨损形式的改变是NBR摩擦性能提高的重要原因。
- The results show that the Aramid fiber pretreated by RFL latex reinforced sealing material is perfect. 结果表明:用RFL乳液处理过的芳纶纤维增强橡胶基复合密封材料的性能最佳。
- As the special structure of Aramid fiber, it is difficult to adhere to resin because of a lower hydrophilicity. 但是由于芳纶纤维特殊的组织结构,其表面较低的浸润性和极性是影响与树脂胶体相粘结的主要原因。
- The bending and torsional properties of Aramid fiber are tested and are compared with other fibers. Their breaking mechanism is also discussed. 对芳纶纤维的弯曲和扭转疲劳进行了测试分析;并与其它纤维进行比较;对它们的破坏机理作了探讨.
