DEGRADATION OF SILANE-CROSS-LINKED AND PEROXIDE-CROSS-LINKED POLYETHYLENE AND ETHYLENE PROPYLENE RUBBER

被引:24
|
作者
SEN, AK
MUKHERJEE, B
BHATTACHARYYA, AS
DE, PP
BHOWMICK, AK
机构
[1] INDIAN INST TECHNOL,CTR RUBBER TECHNOL,KHARAGPUR 721302,W BENGAL,INDIA
[2] FORT GLOSTER IND LTD,DIV CABLE,CTR RES & DEV,HOWRAH 711310,INDIA
来源
POLYMER DEGRADATION AND STABILITY | 1992年 / 36卷 / 03期
关键词
D O I
10.1016/0141-3910(92)90068-G
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
The degradation behavior and kinetics of degradation of polyethylene (PE), ethylene propylene rubber (EPR), silane-grafted PE (PE(g)S) and EPR (EPR(g)S), and silane and dicumyl peroxide (DCP) cross-linked PE, EPR and their blends, have been studied by thermogravimetry in both nitrogen and air. The effect of silane grafting and subsequent cross-linking on the degradation characteristics is more pronounced in air than in N2. The temperatures at which maximum rates of degradation occur (T(max)), are significantly higher for silane-grafted PE and EPR than the control PE in air. In N2, both cross-linked and control PE follow first-order decomposition kinetics while control and grafted EPR follow half-order kinetics. In air, all the systems except DCP-cured EPR follow first-order kinetics. The activation energies for degradation of silane-grafted and silane-cross-linked materials are significantly higher than those of peroxide-cross-linked materials. The onset temperature of oxidative degradation, as measured by differential scanning calorimetry, is markedly higher and the air ageing properties are also better for silane-cross-linked material than for peroxide-cross-linked material. The increased stability of the silane-cross-linked material has been explained in terms of its polyfunctional network structure.
引用
收藏
页码:281 / 289
页数:9
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