1) chloroprene rubber roll
氯丁橡胶辊
2) CR
氯丁橡胶
1.
Research on CR/Vermiculite Nanocomposites;
氯丁橡胶/蛭石纳米复合材料的研究
2.
The Study of the influence of interface adhesion on the heat aging properties of the short fiber-CR composites;
粘合性能对短纤维-氯丁橡胶复合材料耐热性的影响
3.
Research and development on solvent-based CR adhesive;
溶剂型氯丁橡胶胶粘剂的研究开发现状
3) chloroprene rubber
氯丁橡胶
1.
Study on the chloroprene rubber/acrylate rubber blend;
氯丁橡胶/丙烯酸酯橡胶共混研究
2.
Mixing processing properties of chloroprene rubber/ethylene-propylene-diene rubber blends;
氯丁橡胶/三元乙丙橡胶共混胶的混炼工艺性能
3.
Influence of silica loading on performance of chloroprene rubber/natural rubber blends;
白炭黑用量对氯丁橡胶/天然橡胶共混物性能的影响(英文)
4) neoprene
[英]['ni:əpri:n] [美]['niə'prin]
氯丁橡胶
1.
Quick vulcanization accelerator system for neoprene;
氯丁橡胶用快速硫化体系
2.
Application of neoprene and study on its anti-mildew properties;
氯丁橡胶及其防霉性能应用研究
3.
Study on synthesize and application of neoprene adhesive for UHMWPE fiber;
UHMWPE纤维用氯丁橡胶粘合剂的制备及应用研究
5) polychloroprene rubber
氯丁橡胶
1.
Internal mixing properties of polychloroprene rubber (CR with pure gum compound) under different mixing temperature (30 to 50℃) and mixing rotor speeds (30 to 90rpm) were studied using a Brabender torque rheometer.
利用Brabender转矩流变仪研究了氯丁橡胶(纯胶配合)的密炼机混炼特性。
2.
This article showed the design process of the cooling case,which is the key equipment of the finishing of the polychloroprene rubber,and its structure characteristic.
简述了采用双螺杆挤出机生产氯丁橡胶后处理增设冷却箱的设计过程及结构特
3.
The Characteristics of avariety of Polychloroprene Rubbers, Conponents of Neoprene Adhesives,and ffelution and Latex type Adhesives are detailed.
1低温聚合、快速结晶型氯了用胶氯丁橡胶的结晶度与反式1,4含量有关,而反式1,4含量又是由乳液聚合温度决定的,聚合温度越低,反式1,4含量越高。
6) Chloroprene
[英]['klɔ:rəpri:n] [美]['klɔrəprin]
氯丁橡胶
1.
The Development of Chloroprene Rubber Series Glue Agent;
氯丁橡胶系列胶粘剂的进展
2.
The tensile strength of chloroprene was raised by adding 80 mesh.
在氯丁橡胶配方中,填充80目、40质量价活性硫化胶粉或60~100目、60质量份硫化胶粉,可提高氟丁橡胶的拉伸强度;同时可极大降低生产成本和环境的污染;并具有极为可观的经济价值和社会效应;还具有广阔应用前景。
补充资料:氯丁橡胶
氯丁橡胶均以乳液聚合法生产,生产工艺流程多为单釜间歇聚合。聚合温度多控制在40~60℃,转化率则在90%左右。聚合温度、最终转化率过高或聚合过程中进入空气(氧气)均会导致产品质量下降。生产中用硫磺-秋兰姆(四烷基甲氨基硫羰二硫化物)体系调节分子量。硫磺-秋兰姆体系的主要缺点在于硫键不够稳定,这是影响贮存性的重要原因之一。若用硫醇调节分子量,则可改善此种性能。氯丁橡胶与一般合成橡胶不同,它不用硫磺硫化,而是用氧化锌、氧化镁等硫化。
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