Acta Metall Sin  1994, Vol. 30 Issue (16): 187-193    DOI:

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A BIOMIMETIC MODEL OF SHORT FIBRE REINFORCED COMPOSITE MATERIALS──Ⅱ Strength Theory of Imperfect-Bonding Interface

ZHAO Xiaopeng(Institute of Metal Research;Chinese Academy of Sciences;Shenyang;International Center for Materials Physics;Chinese Academy of Sciences;Shenyang);TIAN Hiaobin(Institute of Metal Research;Chinese Academy of Sciences;Shenyang);ZHOU Benlian(Institute of Metal Research;Chinese Academy of Sciences;Shenyang;International Center for Materials Physics;Chinese Academy of Sciences; Shenyang);LI Shihong(Institute of Metal Research;Chinese Academy of Sciences;Shenyang)(Manuscript received 28 July 1993;in revised form 8 November 1993)

ZHAO Xiaopeng(Institute of Metal Research;Chinese Academy of Sciences;Shenyang;International Center for Materials Physics;Chinese Academy of Sciences;Shenyang);TIAN Hiaobin(Institute of Metal Research;Chinese Academy of Sciences;Shenyang);ZHOU Benlian(Institute of Metal Research;Chinese Academy of Sciences;Shenyang;International Center for Materials Physics;Chinese Academy of Sciences; Shenyang);LI Shihong(Institute of Metal Research;Chinese Academy of Sciences;Shenyang)(Manuscript received 28 July 1993;in revised form 8 November 1993). A BIOMIMETIC MODEL OF SHORT FIBRE REINFORCED COMPOSITE MATERIALS──Ⅱ Strength Theory of Imperfect-Bonding Interface. Acta Metall Sin, 1994, 30(16): 187-193.

Abstract References Related Articles Recommended Metrics Download:  PDF(384KB)  Export:  BibTeX | EndNote (RIS)       Abstract  According to the biomimetic research for fibres with enlarged ends,the model of imperfect-bonding interface and the strength theory of composite materials with perfect elastic-plastic matrix have been put forward.It has also been proved that the tensile strength of composite materials reinforced by fibres with enlarged-ends is higher than that by plain fibres.The theoretical and experimental results are in fairly good agreement.Correspondent:ZHAO Xiaopeng,(Institute of Metal Research,Chinese Academy of Sciences,Shenyang 110015) Key words:  biomimetic design      imperfect-bonding interface      short fibre reinforced composite      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1994/V30/I16/187 1田晓滨,赵晓鹏,周本濂．金属学报,1994;30:B1802FiliouC,GaliotisC,BatchelderDN．Composites,1992;23:283JeronimidisG,ParkyuAT．JComposMater,1988;26:4014VedulaM,PangbornRN,QueeneyRA．Composites,1988;19:555HeckerSS,CooperAR．JMater,1970;5:10116BroutmanLJ,KrockRH．ModernCompositeMaterials．London:Addison-Wesley,1967:25 [1] TIAN Hiaobin(Institute of Metal Research;Chinese Academy of Sciences;Shenyang);ZHAO Hiaopeng;ZHOU Benlian(Institute of Metal Research;Chinese Academy of Scicnces;Shenyang;International Center for Materials Physics;Chinese Academy of Sciences;Shenyang)(Manuscript received 24 June;1993:in revised form 25 August;1993). A BIOMIMETIC MODEL OF SHORT FIBRE REINFORCED COMPOSITE MATERIALS── I Stress Distribution of Composite Reinforced by Dumbbell Fibres[J]. 金属学报, 1994, 30(16): 180-186. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed