铺层角度对碳纤维/形状记忆环氧树脂层合板形状回复性能的影响*

doi:10.11896/j.issn.1005-023X.2017.020.003

《材料导报》期刊社

2017, Vol. 31

Issue (20): 11-16 https://doi.org/10.11896/j.issn.1005-023X.2017.020.003

材料研究

铺层角度对碳纤维/形状记忆环氧树脂层合板形状回复性能的影响^*

陈毓焘, 李文晓, 金世奇

同济大学航空航天与力学学院,上海 200092

Shape Recovery Properties of Carbon Fiber/Shape Memory Epoxy Resin Laminates with Diverse Ply Angles

CHEN Yutao, LI Wenxiao, JIN Shiqi

School of Aerospace Engineering and Applied Mechanics, Tongji University, Shanghai 200092

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摘要对不同铺层角度的碳纤维/环氧树脂形状记忆复合材料(SMC)层合板的弯曲回复性能进行了研究。结果表明,[±θ]_s铺层方式的SMC层合板的形状回复率、回复力均随着铺层角度增大而减小,回复时间随着铺层角度增大而增大,其中铺层角度增大至45°后,回复时间开始出现大幅的增加,铺层角度增大至60°后,回复率开始出现大幅的降低。对SMC层合板进行了15次的赋形-回复循环过程,发现不同铺层角度SMC层合板均能保持较稳定的形状记忆回复率和回复时间。但在铺层角度0~30°的范围内,层合板的形状回复力随着铺层角度增大而减小。最后分析了不同铺层角度SMC层合板的局部损伤,结果表明,[0]₄和[±15]_s铺层方式的SMC层合板基体已达到了其极限剪切应变,基体发生严重破坏,并且会随着赋形次数的增加而加剧。

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关键词: 形状记忆复合材料(SMC) 环氧树脂碳纤维层合板铺层角度回复率回复力损伤

Abstract: The performances of flexural recovery and the local damage of the shape memory composite (SMC) laminates, which were composed of epoxy resin matrix and carbon fiber reinforcement, and differed in ply orientation, were studied. The research showed that the recovery ratio and force of [±θ]_s laminates decrease with the increase of ply angle, while the recovery time increases. The recovery time rises substantially when the ply angle reaches 45°, and the recovery ratio begins to reduce substantially when the ply angle reaches 60°. The recovery ratio and recovery time of the SMC laminates changed little during 15 cycles bending-recovering process, but the recovery force decreases gradually with the ply angle increasing from 0° to 30°. Finally, the local damage of laminates was analyzed. The result shows that the matrix of [0]₄ and [±15]_s laminates has reached ultimate shear strain and been badly damaged, and the damage will be worse with the increase of shaping times.

Key words: shape memory composite (SMC) epoxy resin carbon fiber laminate ply angle recovery ratio recovery force damage

出版日期: 2017-10-25 发布日期: 2018-05-05

ZTFLH:

TB333

基金资助: *上海市空间飞行器机构重点实验室开放课题资助项目

作者简介: 陈毓焘:男,1990年生,硕士研究生,主要从事先进复合材料方面的研究李文晓:通讯作者,女,1968年生,博士,副教授,硕士研究生导师,主要从事先进复合材料、耐高温泡沫等方面的研究 E-mail:1433480@tongji.edu.cn; wenxiaoli@tongji.edu.cn

引用本文:

陈毓焘, 李文晓, 金世奇. 铺层角度对碳纤维/形状记忆环氧树脂层合板形状回复性能的影响^*[J]. 《材料导报》期刊社, 2017, 31(20): 11-16.
CHEN Yutao, LI Wenxiao, JIN Shiqi. Shape Recovery Properties of Carbon Fiber/Shape Memory Epoxy Resin Laminates with Diverse Ply Angles. Materials Reports, 2017, 31(20): 11-16.

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http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.020.003 或 http://www.mater-rep.com/CN/Y2017/V31/I20/11

1 Yang J H, Chun B C, Chung Y, et al. Comparison of thermal/mechanical properties and shape memory effect of polyurethane block-copolymers with planar or bent shape of hard segment[J]. Polymer, 2003,44(11):3251.
2 Lin J, Knoll C, Willey C. Shape memory rigidizable inflatable (RI) structures for large space systems applications [C]∥47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. Newport, Rhode Island, 2006.
3 Leng J, Xin L, Liu Y, et al. Shape-memory polymers and their composites: Stimulus methods and applications [J]. Prog Mater Sci, 2011,56(7):1077.
4 Luo P. Preparation and research on shape memory epoxy resin [D]. Qinhuangdao: Yanshan University, 2012(in Chinese).
罗棚. 形状记忆环氧树脂的制备与性能研究[D]. 秦皇岛: 燕山大学, 2012.
5 Chen Qing. Design of deployable antenna based on shape memory polymer composites [D]. Harbin: Harbin Institute of Technology, 2011(in Chinese).
程清. 基于形状记忆复合材料的展开天线设计[D]. 哈尔滨:哈尔滨工业大学, 2011.
6 Chen Qiaofeng,Li Wenxiao,Fang Guangqiang, et al. Effects of ply angles on properties of shape memory composite laminates [J]. Eng Plast Appl, 2014(4):40(in Chinese).
陈巧峰,李文晓,房光强,等. 铺层角度对形状记忆复合材料层合板性能的影响[J]. 工程塑料应用, 2014(4):40.
7 Shi Han. Study on the two-stage curing technology of a new shape memory epoxy resin [D]. Harbin: Harbin Institute of Technology, 2011(in Chinese).
石晗. 新型形状记忆环氧树脂的二次固化研究[D]. 哈尔滨:哈尔滨工业大学, 2011.
8 Mao Y, Robertson J M, Mu X, et al. Thermoviscoplastic behaviors of anisotropic shape memory elastomeric composites for cold programmed non-affine shape change [J]. J Mech Phys Solids, 2015,85:219.
9 Nishikawa M, Wakatsuki K, Yoshimura A, et al. Effect of fiber arrangement on shape fixity and shape recovery in thermally activated shape memory polymer-based composites [J]. Composites Part A, 2012,43(1):165.
10Xiong Zhiyuan. A study on packaging deformation mechanism of elastic memory composites [D]. Beijing: Beijing Jiaotong University,2010(in Chinese).
熊志远. 形状记忆聚合物复合材料折叠变形机理的研究[D]. 北京: 北京交通大学, 2010.
11Broughton W R. Mechanical testing of advanced fibre composites [M]. Woodhead: CRC Press, 2000.
12Lake M, Munshi N, Meink T, et al. Application of elastic memory composite materials to deployable space structures[C]∥AIAA Space 2001 Conference and Exposition. AIAA 2001.
13Francis W, Lake M, Mayes J S. A review of classical fiber microbuckling analytical solutions for use with elastic memory composites [C]∥47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference. Newport, Rhode Island, 2006.
14Lan X, Liu Y, Leng J. Shape recovery mechanics of fiber-reinforced shape-memory polymer composite [C]∥Proceedings of SPIE-The International Society for Optical Engineering, 2010.
15Kim B K, Sang Y L, Mao X. Polyurethanes having shape memory effects [J]. Polymer,1996, 37(26):5781.
16Yu K, Ge Q, Qi H J. Reduced time as a unified parameter determining fixity and free recovery of shape memory polymers [J]. Nat Commun,2014,5:3366.
17Lai Xueping. Study on preparation and performance of shape memory epoxy resin [D]. Harbin: Harbin Institute of Technology, 2007(in Chinese).
赖学平. 形状记忆环氧树脂的制备及性能研究[D]. 哈尔滨: 哈尔滨工业大学, 2007
18Maji A K, Lips J A, Azarbayejani M. Measurement and analytical modeling of the deployment rate of elastic memory composites [J]. Experim Mech, 2012,52(7):717.
19Campbell D, Lake M, Scherbarth M, et al. Elastic memory composite material: An enabling technology for future furlable space structures[C]∥Collection of Technical Papers-AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, 2005.
20Lips J, Maji A K, Ng T T. Deployment rate prediction of elastic memory composites [C]∥46th AIAA/ASME/ASCE /AHS/ASC Structures, Structural Dynamics and Materials Conference.Austin, Texas,American,2005.
21Campbell D, Maji A K. Failure mechanisms and deployment accuracy of elastic memory composites [J]. J Aerosp Eng, 2006,19(3):184.
22Xiong Zhiyuan, Wang Zhengdao, Li Yuzhang, et al. Judgment of in-plane/out-of-plane microbuckling mode for packaged unidirectional EMC laminates[J]. Eng Mech,2010(6):183(in Chinese).
熊志远,王正道,李豫彰,等. 单向EMC层合板折叠变形时面内/面外屈曲形式的判据[J]. 工程力学, 2010(6):183.
23Wang Z D, Li Z F, Wang Y S. Microbuckling solution of elastic memory laminates under bending[J]. J Intell Mater Syst Struct, 2009,20(13):1565.

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