摘要
采用表面处理过的氢氧化铝(ATH)与氢氧化镁(MH)混合物(SAMH)(质量比2:1)、线型低密度聚乙烯(LLDPE)、马来酸酐接枝聚乙烯(PE-g-MAH)共混挤出制成母料,然后与聚酰胺6(PA6)共混挤出即母料法制备了PA6/SAMH/PE三元复合材料。当PA6/SAMH/PE三者质量比为50/30/20时,复合体系垂直燃烧通过了UL94V-0@3.2mm级,极限氧指数(LOI)为33.0%,冲击韧性较具有同样阻燃性能的PA6/SAMH二元体系提高了1倍,各组分一次性挤出则阻燃性能较差。采用热重分析(TGA)、扫描电子显微镜(SEM)对PA6/SAMH/PE三元体系的阻燃机理进行了探讨,发现母料法体系各组分界面作用强,燃烧炭层致密,残炭率高。
Surface-treated aluminum hydroxide (ATH) and magnesium hydroxide (MH) mixture (SAMH), linear low density polyethylene (LLDPE) and polyethylene grafted by maleic anhydride (PEMAH) were melt-kneaded and extruded to produce a flame-retardant masterbatch, and then was extruded with polyamide 6 (PA6) to yield PA6/SAMH/PE (50/30/20 by mass ratios) ternary composite. The composite via masterbatch method passed UL94 V- 0@ 3.2mm in vertical burning testing and the limiting oxygen index (LOI) attained 33.0%. The impact strength was twice of PA6/SAMH binary system with a same flame-retarded performance. The flame-retardaney of the composite was poor when all compositions were extruded synchronously. The flame-retarded mechanism of the ternary composites was investigated by thermogravimetric analysis (TGA) and scanning electronic microscope (SEM). It was found that a preferential interaction at the boundary between SAMH particles and PA6/PE polymer host of the composite via masterbatch method resulted in the occurrence of a compact burning carbon layer and a high carbon residue.
出处
《塑料工业》
CAS
CSCD
北大核心
2009年第2期50-53,61,共5页
China Plastics Industry
基金
广东省高新技术领域重点项目(2007A010500001)
关键词
尼龙6
氢氧化铝
氢氧化镁
线型低密度聚乙烯
阻燃
母料法
Nylon 6
Aluminum Hydroxide
Magnesium Hydroxide
Linear Low Density Polyethylene
Flame Retardancy
Masterbatch Method