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[1]吕文丽,李再轲,王甲世,等.复合材料板弹簧用预浸料的固化工艺[J].武汉工程大学学报,2014,(11):54-58.[doi:103969/jissn167428692014011010]
 L Wen li,LI Zai ke,WANG Jia shi,et al.Curing process of prepreg for composite leaf spring[J].Journal of Wuhan Institute of Technology,2014,(11):54-58.[doi:103969/jissn167428692014011010]
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复合材料板弹簧用预浸料的固化工艺(/HTML)
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2014年11期
页码:
54-58
栏目:
材料科学与工程
出版日期:
2014-11-30

文章信息/Info

Title:
Curing process of prepreg for composite leaf spring
文章编号:
16742869(2014)011005405
作者:
吕文丽李再轲王甲世黄河雷青
湖南株洲时代新材料科技股份有限公司,湖南 株洲 412007
Author(s):
L Wenli LI Zaike WANG Jiashi HUANG HeLEI Qing
Zhuzhou Times New Material Technology Co. Ltd., Zhuzhou 412007, China
关键词:
动态差示扫描量热固化动力学固化度力学性能
Keywords:
differential scanning calorimetry experiment curing kinetics curing degree mechanical properties
分类号:
TQ323.5
DOI:
103969/jissn167428692014011010
文献标志码:
A
摘要:
为了使复合材料板弹簧的力学性能达到最优,采用动态差示扫描量热法研究了复合材料板弹簧用预浸料的固化动力学特性,确定了复合材料层压板的最佳固化工艺.同时研究了在最佳固化工艺条件下制备的复合材料层压板的力学性能.结果表明:温度越高板弹簧用预浸料的固化速度越快,预浸料的最佳固化工艺为90 ℃/1 h+125 ℃/1 h.在最佳固化工艺下复合材料层压板的固化度可达到96.7%,且复合材料层压板的基本力学性能与优质合金钢相当,说明该预浸料可以满足板弹簧产品的性能要求.
Abstract:
To improve the mechanical properties of composite material plate spring, the curing kinetics of prepreg for composite leaf spring was studied using differential scanning calorimetry experiment and the optimum curing process of composite laminates was determined, then the mechanical properties of the composite laminates were tested. The results indicate that the curing rate of prepre g for composite leaf spring increases with the increasing temperature; the optimum curing process is determined as 90 ℃ for 1 h, and then 125 ℃ for 1 h. Under the optimum curing process, the curing degree of the composites laminate reaches 96.7%, and the basic mechanical properties of composite laminates are similar to those of highquality steel, which indicates that the prepreg meets the performance requirements of leaf spring.

参考文献/References:

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备注/Memo

备注/Memo:
收稿日期:20141016作者简介:吕文丽(1986),女,湖北荆州人,工程师,硕士.研究方向:树脂基复合材料.
更新日期/Last Update: 2014-12-10