Tensile Properties of Co-continuous Composites of Nickel Foam/Epoxy Resin/Silicon Carbide

doi:10.11901/1005.3093.2016.218

Chinese Journal of Materials Research

2016, Vol. 30

Issue (12): 909-913 DOI: 10.11901/1005.3093.2016.218

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Tensile Properties of Co-continuous Composites of Nickel Foam/Epoxy Resin/Silicon Carbide

Yang LIU,Deli DUAN(

),Junxiang WANG,Sihan HOU,Shu LI

Institute of Metal Research, ChineseAcademy of Sciences, Shenyang 110016, China

Cite this article:

Yang LIU,Deli DUAN,Junxiang WANG,Sihan HOU,Shu LI. Tensile Properties of Co-continuous Composites of Nickel Foam/Epoxy Resin/Silicon Carbide. Chinese Journal of Materials Research, 2016, 30(12): 909-913.

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Abstract

Co-continuous composites of nickel foam/epoxy/silicon carbide with different SiC content and different specification of nickel foam were prepared and then their tensile property was investigated. The results show that the tensile strength of the composite is high when made of nickel foam with small pore diameter and high relative density, while the SiC content have small influence on the tensile property. The damage process of the co-continuous composite and the relevant mechanism was revealed by observing the morphologies of the tensile fracture and analyzing the tensile curves.

Key words: co-continuous composites tensile properties nickel foam epoxy resin

Received: 20 April 2016

Fund: *Supported by the National Natural Science Foundation of China No.51275506.

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	Yang LIU
	Deli DUAN
	Junxiang WANG
	Sihan HOU
	Shu LI

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https://www.cjmr.org/EN/10.11901/1005.3093.2016.218 OR https://www.cjmr.org/EN/Y2016/V30/I12/909

Table 1 Specifications of the silicon carbide particles

Fig.1 Picture of dumbbell tensile specimens of co-continuous composites (unit: mm)

Fig.2 Tensile strength of different nickel foams

Fig.3 Tensile strength of epoxy resin composites with different SiC content

Table 2 Tensile strength of various composites

Fig.4 Fracture morphology of tensile specimen of C2#

Fig.5 Fracture damage sketch map of the co-continuous composites

Fig.6 Load-displacement curves of different nickel foam (a) and different co-continuous composites (b)

Fig.7 Comparison of tensile load-displacement curves

1	WANG Zejian, Preparation and characteristic of three-dimensional co-continuous network SiC ceramic / cast iron composite material, Master Dissertation, Hubei University of Technology(2009)
1	(王泽建, 三维连续网络结构碳化硅陶瓷/铸铁复合材料的制备方法及性能研究, 硕士学位论文, 湖北工业大学(2009))
2	HUANG Dan, CHEN Weiping, HE Zengxian, WANG Juan, Research progress of three-dimensional network ceramic/metal composite materials, Special Casting & Nonferrous Alloys, 30(4), 309(2010)
2	(黄丹, 陈维平, 何曾先, 王娟, 三维网络陶瓷/金属复合材料研究新进展, 特种铸造及有色合金, 30(4), 309(2010))
3	Takagi Y, Kikuchi T, Katayama C, A new image-plate reader for various sizes and shapes, Journal of synchrotron radiation, 5(3), 854(1998)
4	Clarke D R, Interpenetrating Phase Composites, Journal of the American Ceramic Society, 75(4), 739(1992)
5	Jiang L., Jiang Y.L., Liang Y. U., Nan S. U., Ding Y. D, Experimental study and numerical analysis on dry friction and wear performance of co-continuous SiC/Fe-40Cr against SiC/2618 Al alloy composites, Transactions of Nonferrous Metals Society of China, 22(12), 2913(2012)
6	ZHAO Longzhi, CAO Xiaoming, TIAN Chong, HU Wanping, ZHANG Jinsong, Influence of T6 treatment on microstructure and compressive property of SIC/AI double-interpenetrating composites, Chinese Journal of Materials Research, 21(1), 57(2007)
6	(赵龙志, 曹小明, 田冲, 胡宛平, 张劲松, T6热处理对复式连通双连续相SiC/Al复合材料性能的影响, 材料研究学报, 21(1), 57(2007))
7	Qin Y.W., Lu S. K., Simulation and Experimental Mechanical Properties of SiCn/2024 Al Alloy Co-Continuous Composites., Advanced Materials Research, 712, 997(2013)
8	RENZhiheng, Study on the Preparation and Characteristics of SiC Foam Ceramic/Epoxy Co-continuous Phase Composites, PhD Dissertation, Institute of Metal Research Chinese Academy of Sciences(2015)
8	(任志恒, SiC泡沫陶瓷/树脂双连续相复合材料的制备与性能研究, 博士学位论文, 中国科学院金属研究所(2015))
9	Kursun A., Bayraktar E., Enginsoy H.M., Experimental and numerical study of alumina reinforced aluminum matrix composites: Processing, microstructural aspects and properties, Composites Part B-engineering, 90, 302(2016)
10	GENG Haoran, HUI Linhai, WANG Shouren, XU Fusong, The preparation of TiAl intermetallic compounds network structure, Special Casting & Nonferrous Alloys, 29(03), 213(2009)
10	(耿浩然, 惠林海, 王守仁, 徐福松, TiAl金属间化合物网络结构件的制备, 特种铸造及有色合金, 29(03), 213(2009))
11	Lu Y., Li J.L., Yang J. F., Jing Q. Z., Li J. J., Li P., Squeeze Cast Co-Continuous AlN/Al Composites, Materials Science Forum, 788, 580(2014)
12	Xiao L., Hongxiang Z., Zhenying H., Xingmin W., Fabrication and Performance of Co-continuous Ti3AlC2/Cu, Rare Metal Materials and Engineering, 44, 808(2015)
13	Gibson L J, Ashby M F, Cellular Solids: Structure and properties, 2nd edition, (Cambridge, Cambridge University Press, 1997)P. 217-221
14	SHEN Guanlin, HU Gengkai, LIU Bin, Mechanics of Composite Materials, 2nd edition, (Beijing, Tsinghua University Press, 2006)P.178
14	(沈观林, 胡更开, 刘彬, 复合材料力学, 第2版, (北京, 清华大学出版社, 2006)P.178)
15	D. L. Duan, R. L. Zhang, X. J. Ding, S. Li, Calculation of specific surface area of foam metals using a dodecahedron model, Material Science and Technology, 22(11) 1364(2006)

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