蠕变条件下刚性夹杂填充高聚物复合材料的延迟时间-蠕变荷载幂率关系研究

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Abstract A new type polymer composite was developed by filling short stainless steel fibers (SSFs) into polypropylene (PP). The creep behavior of the composite material was studied under different level of creep load. The experiment shows that a nonlinear relationship exists between the creep strain and creep load under the same loading time, and such a phenomena could not be explained by the linear viscoelastic theory. In order to analyze the phenomena, the view of creep load dependence of retardation time was taken into account. It was found that a linear relation between the retardation time and creep load in the logarithmic coordinate system, and thus the power-law relation was proposed to describe the relation between the retardation time and creep load. Further analysis indicated that the increase of retardation time with creep load is induced by micro-damage evolution.

Received: 28 November 2016 Published: 28 August 2017

Corresponding Authors: Jiankang Chen E-mail: chenjiankang1957@163.com

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	WANG Xiang
	CHEN Jian-Kang
	LI Ke-Wu
	DIAO Feng
	BO Shu-Lin

Cite this article:

WANG Xiang,CHEN Jian-Kang,LI Ke-Wu, et al. On the power-law relation between retardation time and creep load for rigid inclusions filled a polymer composite[J]. , 2017, 38(4): 348-358.

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http://manu39.magtech.com.cn/Jwk_gtlxxb/EN/ OR http://manu39.magtech.com.cn/Jwk_gtlxxb/EN/Y2017/V38/I4/348