1) sisal fiber
剑麻纤维
1.
Wear resistance properties of sisal fiber/phenol formaldehyde in-situ composites;
剑麻纤维/酚醛树脂原位复合材料耐磨性能研究
2.
Effect of Steam Explosion Treatment on Mechanical Properties of Sisal Fiber/Phenol-formaldehyde Resin Composite;
蒸汽爆破处理对剑麻纤维/酚醛树脂复合材料力学性能的影响
3.
Study of Property of Sisal Fiber/Glass Fiber/Phenolic Resin Composite;
剑麻纤维/玻璃纤维/酚醛树脂复合材料的性能研究
2) sisal fibre
剑麻纤维
1.
Thermal treatment and thermal behavior of sisal fibre;
剑麻纤维的热处理及热行为的研究
2.
The experimental results show that sisal fibre can made high performance of chemical pulp by using the SE-NaOH pulping under a small quantity of alkalis and little time.
通过对剑麻纤维原料爆破法处理,继而进行烧碱法化学蒸煮。
3.
After alkali treatment sisal fibre(SF) was smashed,sisal fibre/phenol formaldehyde composites were prepared through compression molding.
采用碱处理方法对剑麻纤维(SF)进行处理、细化,通过模压成型制备剑麻纤维/酚醛树脂(SF/PF)复合材料。
3) sisal fibers
剑麻纤维
1.
K2S2O8/ Na2S2O3 is the suitable initiator for sisal fibers graft reaction because it can reduce reaction temperature and increase the percent of graft and monomer conversion.
采用K_2S_2O_8/Na_2S_2O_3氧化还原体系作为剑麻纤维接枝的引发剂,能够降低反应的温度,提高纤维素的接枝率和单体的转化率。
2.
The graft copolymerization of methyl methacrylate (MMA) on the surface of sisal fibers (SF) was carried out with Cerium-and-ammonium nitrate (CAN) as intitator.
用硝酸铈铵作引发剂,将甲基丙烯酸甲酯(MMA)接枝到剑麻纤维(SF)的表面,研究了接枝聚合反应的规律,并考察了接枝聚合对SF热稳定性的影响。
3.
The polypropylene (PP) / sisal fibers (SF) treated by alkali composites were prepared by injection molding.
用注射成型的方法制备了聚丙烯(PP)/碱处理剑麻纤维(SF)复合材料,研究了材料的热性能、晶态结构、微观结构和力学性能。
4) sisal short fibre
剑麻短纤维
1.
Properties of sisal short fibre reinforced ENR-50/PVC composites;
剑麻短纤维补强环氧化天然橡胶/PVC复合材料的性能研究
5) waste sisal fiber
废弃剑麻纤维
1.
The alkali-treated waste sisal fiber ( WSF) was treated by coupling agent and acetic acid seperately, and then it was blended with selfmade urea-formaldehyde resin (UF) to prepare UF/WSF composite.
将碱处理的废弃剑麻纤维(WSF)分别用偶联剂、乙酸处理后与自制的脲醛树脂(UF)共混,制得UF/WSF复合材料,测试了该复合材料的冲击强度、弯曲强度、耐磨性能、电绝缘性、吸水性、热分解温度等。
6) polypropylene/sisal fibers composites
聚丙烯/剑麻纤维复合材料
补充资料:碳(石墨)纤维增强体(见碳纤维、石墨纤维)
碳(石墨)纤维增强体(见碳纤维、石墨纤维)
earbon(graPhite)fibrereinforeements
,、、里z耽维增强体earbon(graphi现inforcements用于复合材料中承受负荷,田的磷纤始知五史纤俯亡e)fibre起增强作
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