连续SiC纤维增强钛基复合材料横向高温变形机理研究*

doi:10.11896/j.issn.1005-023X.2017.08.018

《材料导报》期刊社

2017, Vol. 31

Issue (8): 88-93 https://doi.org/10.11896/j.issn.1005-023X.2017.08.018

材料研究

连续SiC纤维增强钛基复合材料横向高温变形机理研究^*

曹秀中¹, 赵冰^2,3,4, 韩秀全^2,3,4, 侯红亮^2,3,4, 曲海涛^2,3,4

1 无锡职业技术学院机械技术学院, 无锡 214121;
2 北京航空制造工程研究所, 北京 100024;
3 塑性成形技术航空科技重点实验室, 北京 100024;
4 数字化塑性成形技术与装备北京市重点实验室, 北京 100024

Research on Deformation Mechanism of SiC Fiber Reinforced Titanium Matrix Composites Subjected to High Temperature Axial Tension

CAO Xiuzhong¹, ZHAO Bing^2,3,4, HAN Xiuquan^2,3,4, HOU Hongliang^2,3,4, QU Haitao^2,3,4

1 School of Mechanical Technology, Wuxi Institute of Technology, Wuxi 214121;
2 Beijing Aeronatural Manufacture Technology Research Institute, Beijing 100024;
3 Aeronautical Key Laboratory for Plastic Forming Technologies, Beijing 100024;
4 Beijing Key Laboratory for Plastic Technologies and Equipment, Beijing 100024

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摘要针对连续SiC纤维增强钛基复合材料(SiC_f/Ti)成形的技术难题,利用沿垂直纤维方向基体具有大变形的能力,可以采用超塑成形/扩散连接技术(SPF/DB)成形出复合材料空心构件。在不同工艺参数条件下,测试了SiC_f/Ti复合材料的横向高温变形规律,并分析了变形温度、应变速率、纤维含量等工艺参数的影响规律,对不同参数条件下拉伸试件的微观组织和断口形貌进行了对比,分析了复合材料的高温变形机制。

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关键词: 纤维增强钛基复合材料高温变形变形参数变形机制

Abstract: In order to resolve the technical problems of continuous SiC fiber reinforced titanium matrix composites (SiC_f/Ti) formation, the large strain deformation ability of SiC_f/Ti in the direction perpendicular to the fiber was used, and the superplastic forming/diffusion bonding(SPF/DB) process was introduced into the fabrication of SiC_f/Ti composites. The deforming behavior of SiC_f/Ti at high temperature of different process parameters were studied in detail. The influence of temperature, strain rate, fiber volume on the deformation were analyzed, the deformation mechanisms of SiC_f/Ti composite at high temperature were discussed.

Key words: fiber reinforced titanium matrix composites high temperature deformation deformation parameter deformation mechanism

出版日期: 2017-04-25 发布日期: 2018-05-02

ZTFLH:	TG146
	TG35

基金资助: 航空创基金课题(KC371302116);江苏高等学校优秀科技创新团队项目(苏教科[2015]4号)

通讯作者: 赵冰:男,1975年生,博士,主要研究方向为金属及金属基复合材料 E-mail:zhao6833@163.com

作者简介: 曹秀中:男,1973年生,硕士,主要研究方向为金属材料及复合材料 E-mail:caoxiuzhong@163.com

引用本文:

曹秀中, 赵冰, 韩秀全, 侯红亮, 曲海涛. 连续SiC纤维增强钛基复合材料横向高温变形机理研究^*[J]. 《材料导报》期刊社, 2017, 31(8): 88-93.
CAO Xiuzhong, ZHAO Bing, HAN Xiuquan, HOU Hongliang, QU Haitao. Research on Deformation Mechanism of SiC Fiber Reinforced Titanium Matrix Composites Subjected to High Temperature Axial Tension. Materials Reports, 2017, 31(8): 88-93.

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http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.08.018 或 http://www.mater-rep.com/CN/Y2017/V31/I8/88

1 Yu D M, Fang A, Zhang J B. 3D printing: Technology and application[J]. Metal World,2013,6(3):6(in Chinese).
余冬梅,方奥,张建斌. 3D打印:技术和应用[J].金属世界,2013,6(3):6.
2 Liang C H. Application of continuous fiber reinforced metal matrix composite component on turbofan engine[J]. Aeronautical Manuf Technol,2009(1):32(in Chinese).
梁春华.连续纤维增强的金属基复合材料部件在航空涡扇发动机上的应用[J].航空制造技术,2009(1):32.
3 Leycns C,Peters M. Titanium and titanium alloys[M]. Weinheim: Wiley-VCH Verlag GmbH &Co. KGaA,2003:268.
4 张国定,赵昌正.金属基复合材料[M].上海:上海交通大学出版社,1998:249.
5 Clyne T W. Comprehensive composite material. Volume 3.Metal matrix composite[M]. London: Cambridge University Press,2000:492.
6 Clyne T W, Withers P J.An introduction to metal matrix composites[M].London: Cambridge University Press,1993:166.
7 Guo Xianglong, Wang Liqiang,Wang Minmin, et al.Effects of degree of deformation on the microstructure, mechanical properties and texture of hybrid-reinforced titanium matrix composites[J].Acta Mater,2012,4:2656.
8 Hofmann D C, Suh J Y.Designing metallic glass matrix composites with high toughness and tensile ductility[J].Nature,2008,2:1085.
9 Zeng L Y. Superplastic deformation of continuous fiber reinforced titanium matrix composites[J].Rare Met Lett,2002(3):9(in Chinese).
曾立英.连续纤维增强钛基复合材料的超塑性变形[J].稀有金属快报,2002(3):9.
10 Carrere N, Boivin D, Valle R,et al. Local texture measurements in a SiC/Ti composite manufactured by the foil-fibre-foil technique[J].Scripta Mater,2001,4:50.

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