摘要
对以合金化技术改性所得增强增韧尼龙66进行流变行为研究的结果表明,填充玻纤,可使其增强,但使流动性能下降:共混接枝聚丙烯,可使其增韧,并改善加工流动性,填充超细滑石粉,除有一定增强作用外,也使加工流动性、制品表面光滑程度和尺寸稳定性得到改善。填充共混的协同作用使改性尼龙66有较好的综合性能。
The rheologic behaviour of modified polyamide 66(PA66) engineering plastic was studied. The experiment data indicated that the apparent viscosity variated corresponding to η_a (PA66/GF/PP/-g-MAH/Talc)<η_a(PA66/GF/LDPE-g-MAH)<ηa (PA66)<ηa(PA66/GF),the apparent activation energy corresponding to ΔEγ (PA66/GF/PP-g-MAH/talc) >ΔEγ(PA66 )> ΔEγ(PA66/GF/LDPE-g-MAH) ≈ΔEγ(PA66/GF/PP-g-MAH ), the rheologicindex variated corresponding to n(PA66) ≥n(PA66/GF/PP-g-MAH/Talc>n(PA66/GF/PP).It was show the modified PA66(PA66/PP-g-MAH/Talc)have a well processing flowability and mechanical properties.
出处
《高分子材料科学与工程》
EI
CAS
CSCD
北大核心
1994年第4期115-118,共4页
Polymer Materials Science & Engineering
关键词
滑石粉
流变
聚酰胺
玻璃纤维
增强
s:polyamide 66, glass fiber, polyproplene,talc, rheologic behaviour.
