工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2014年
10期
24-27
,共4页
弓亚琼%王立言%薛旭丹%范琳琳
弓亞瓊%王立言%薛旭丹%範琳琳
궁아경%왕립언%설욱단%범림림
尼龙11%碳化硅%复合材料%力学性能%阻隔性能
尼龍11%碳化硅%複閤材料%力學性能%阻隔性能
니룡11%탄화규%복합재료%역학성능%조격성능
nylon 11%silicon carbide%composite%mechanical property%barrier property
以经硅烷化处理的碳化硅(SiC)和11–氨基十一酸为原料,采用原位聚合法制备了尼龙(PA)11/SiC复合材料,并研究了所制得的复合材料的力学性能、形态结构及阻隔性能。结果表明,SiC的加入增大了PA11/SiC复合材料的冲击强度和断裂伸长率,当SiC质量分数为4%时复合材料的力学性能最好。SiC的加入还使复合材料的吸油值下降,阻隔性能增加。
以經硅烷化處理的碳化硅(SiC)和11–氨基十一痠為原料,採用原位聚閤法製備瞭尼龍(PA)11/SiC複閤材料,併研究瞭所製得的複閤材料的力學性能、形態結構及阻隔性能。結果錶明,SiC的加入增大瞭PA11/SiC複閤材料的遲擊彊度和斷裂伸長率,噹SiC質量分數為4%時複閤材料的力學性能最好。SiC的加入還使複閤材料的吸油值下降,阻隔性能增加。
이경규완화처리적탄화규(SiC)화11–안기십일산위원료,채용원위취합법제비료니룡(PA)11/SiC복합재료,병연구료소제득적복합재료적역학성능、형태결구급조격성능。결과표명,SiC적가입증대료PA11/SiC복합재료적충격강도화단렬신장솔,당SiC질량분수위4%시복합재료적역학성능최호。SiC적가입환사복합재료적흡유치하강,조격성능증가。
Nylon 11/SiC composites were in-situ prepared using 11-amino undecanoic acid and SiC as raw materials by melt blending,and their mechanical,morphology and barrier properties were investigated. The results indicate that the tensile strength and elongation at break of nylon 11/SiC composites are increased with the addition of SiC. The mechanical properties are the best when SiC mass content is 4%. The oil absorption of composites is reduced, and the barrier properties are improved.
