摘要
建立了复合材料界面强度原位测试系统,研制出界面剪切强度有限元分析软件并探讨了影响界面剪应力分析的因素,提出了改进的微观力学模型;利用该系统,研究了表面经不同改性处理的CF增强PMR—15聚酰亚胺复合材料界面的微观力学性能,结果表明:有效的表面处理可使CF/PMR—15界面剪切强度明显提高,并与其宏观性能具有较好的对应趋势。本文还初步探讨了界面破坏的过程。
The fiber/matrix interface plays an important rokin contro11ing the mechanicalperformance of composites. This paper describes a new method for determining the in situfiber/matrix bond properties of realistic composites,An in situ interfacial strength testing(ISIST)instrument based on the precise position,auto-loading and data acquisition systemhas been established.In the test,a compressive load is applied axially to the end ofindividual fibers in a small specimen cut from the real composite,until interfacialmicrodebonding occurs,The interfacial shear strength of composites can be obtained byusing the debonding force through a finite-element analysis. Several factors which affect theanalysis of interfacial shear stress are investigated, nd a modified micromechanic model oftested fiber,surrounding matrix and surrounding fibers is given, Based on the ISISTtechniqu,this paper investigates the interfacial bond properties between carbon fiber andPMR-15 polyimide matrix for actual composites,and the influences of different treatmentmethods of carbon fiber surface on the interfacial shear strengh of CF/PMR-15 compositesare discussed.Finally,the interfacial debonding mechanism is preliminarily studiedcombined with TEM technique.
出处
《复合材料学报》
EI
CAS
CSCD
北大核心
1995年第3期83-89,共7页
Acta Materiae Compositae Sinica
基金
国家"八六三"高技术计划资助项目
关键词
复合材料
纤维
基体界面
粘合强度
界面剪应力
composite,fiber/matrix interface,bond strength,interfacial shear stress
