1) PC/HDPE blends
PC/HDPE共混材料
1.
A new flame retardant which was used in PC/HDPE blends was prepared by using spirocyclic phenol phosphate(SPP) and melamine phosphate(MP)(weight ratio 7∶3) or spirocyclic p-cresol phosphate(SCP)and MP(weight ratio 7∶3).
9%,当阻燃剂添加量均为22%时,SPP阻燃的PC/HDPE共混材料的ILO达到26。
2) HDPE/PC blend
HDPE/PC共混物
3) HDPE/PC blends
HDPE/PC共混体系
1.
HDPE and PC are known to be incompatible polymer pair, therefore how to compatibilize and improve the properties of HDPE/PC blends have become the important problem.
本文通过双螺杆反应挤出熔融加工过程,促使乙烯-醋酸乙烯酯共聚物(EVA)、乙烯-丙烯酸共聚物(EAA)侧基上的官能团与PC组分主链上的酯基在催化剂氧化二丁基锡(DBTO)的作用下发生酯交换或酸-酯交换反应,在共混体系界面原位生成接枝或共交联的PC-EVA、PC-EAA共聚物,作为HDPE/PC共混体系的增容剂,从而达到原位增加HDPE/PC共混体系相容性的目的。
4) blend of HDPE crosslinking polyethylene
共混HDPE
5) blending materials
共混材料
1.
Study on blending materials based on ground rubber tire and plastics;
胶粉/热塑性塑料共混材料的研究
2.
Study on mechanical properties of PVC/SBS blending materials
PVC/SBS共混材料力学性能研究
3.
Application of data mining techniques in the development of blending materials was introduced, and as a pivot, the establishment and application ways of the models based on the association rules, as well as an efficient means of realizing data mining were discussed.
介绍了在共混材料制备工艺研究中数据挖掘技术的应用,重点讨论了基于关联规则的模型建立与应用的过程,并用数据挖掘技术对可交联硅烷接枝聚乙烯共混材料制备中退火工艺与材料结晶性能的关联性进行了研究。
6) blend
[英][blend] [美][blɛnd]
共混材料
1.
Study on the properties of poly(lactic acid)/poly(ethylene glycol) blends
聚乳酸/聚乙二醇共混材料的性能研究
2.
A ternary polymer blend was prepared with ABS and EVA as modifiers for chlorinated polyvinyl chloride.
使用ABS和CPE作为氯化聚氯乙烯材料的改性体系,制备了三元共混材料。
3.
The ageing mechanism of PVC/ABS blend was analyzed,and the effects of different ultraviolet absorbers,antioxidants on anti-ageing properties of PVC/ABS blend prepared by adding antioxidants,ultraviolet absorbers in PVC/ABS basic formula were also studied.
分析了PVC/ABS共混材料的老化及其防老化机理,并通过在PVC/ABS基础配方中添加紫外线吸收剂、抗氧剂等办法,研究不同品种的紫外线吸收剂和抗氧剂对提高PVC/ABS共混材料防老化能力的影响,结果表明,紫外线吸收剂UV 327和抗氧剂1076能有效提高PVC/ABS共混材料的防老化能力。
补充资料:PC
聚碳酸酯(双酚A型)化学名称2,2-双(4-羟基苯基)丙烷聚碳酸酯,是由酯交换法和光气化法制得。平均分子量3.57×104。无定形透明颗粒.无味、天臭、无毒。相对密度1.20-1.43。没有明显熔点,220-230℃呈熔融状态。透光率高,吸水性低,耐冲击,韧性好.蠕变小,制品尺寸稳定。耐热性和耐寒性较好.玻璃化温度149-150℃.热变形温度135℃(1.82MPa)、分解温度>310 ℃,脆性温度-l00 ℃,使用温度-100~120 ℃。耐稀酸、耐油、不耐碱。溶于二氯甲烷、二氯乙烷、氯仿、三氯乙烯、四氯乙烷、四氢呋喃、三甲酚、磷酸三甲酯等。疲劳强度较低,容易产生应力开裂。具有优良的高温电性能,具有耐燃自熄性。拉伸强度 >60MPa, 伸长率>60%,弯曲强度>95MPa。
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