Carbon nanotube (CNT) reinforced composites have been drawing intense attentions of researchers due to their good mechanical and physical properties as well as potential applications. The diameter, as an important geometric parameter of CNTs, significantly affects the performance of CNTs in the reinforced composites, not only in a direct way but also in an indirect way by influencing the effective modulus and strength of reinforcing CNTs. This paper investigates the comprehensive effect of CNT diameter on the fracture toughness of CNT reinforced composites by accounting for both direct and indirect influences of CNT diameter based on the three-level failure analysis. The criteria for failure modes are established analytically, and the types of failure mode transition with the corresponding optimal CNT diameter are obtained. It is found that reducing CNT diameter can cause a sudden drop in fracture toughness of composites due to the transition of dominant failure mode. Therefore, the CNTs with smaller diameter do not definitely confer a better fracture toughness on their reinforced composites, and the optimal CNT diameter may exist in the transition between failure modes, especially from interfacial debonding to CNT break. In addition, according to the results, the failure mode of CNT break is suggested to be avoided in the composite design because of the low fracture toughness enhancement of CNTs in this mode. This study can provide guiding reference for CNT reinforced composite design.
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August 2015
Research-Article
Carbon Nanotube Reinforced Composites: The Smaller Diameter, the Higher Fracture Toughness?
Zhiyong Wang,
Zhiyong Wang
Institute of Solid Mechanics,
Beihang University
,Beijing 100191
, China
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Shengtao Wang,
Shengtao Wang
Institute of Solid Mechanics,
Beihang University
,Beijing 100191
, China
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Zhenggang Zhou,
Zhenggang Zhou
AVIC Advanced Composites Center
,Beijing 100095
, China
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Jianyu Zhang,
Jianyu Zhang
College of Aerospace Engineering,
Chongqing University
,Chongqing 400044
, China
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Bin Liu
Bin Liu
AML,
CNMM,
Department of Engineering Mechanics,
CNMM,
Department of Engineering Mechanics,
Tsinghua University
,Beijing 100084
, China
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Yuli Chen
Zhiyong Wang
Institute of Solid Mechanics,
Beihang University
,Beijing 100191
, China
Shengtao Wang
Institute of Solid Mechanics,
Beihang University
,Beijing 100191
, China
Zhenggang Zhou
AVIC Advanced Composites Center
,Beijing 100095
, China
Jianyu Zhang
College of Aerospace Engineering,
Chongqing University
,Chongqing 400044
, China
Bin Liu
AML,
CNMM,
Department of Engineering Mechanics,
CNMM,
Department of Engineering Mechanics,
Tsinghua University
,Beijing 100084
, China
1Corresponding author.
Contributed by the Applied Mechanics Division of ASME for publication in the JOURNAL OF APPLIED MECHANICS. Manuscript received April 14, 2015; final manuscript received May 7, 2015; published online June 9, 2015. Editor: Yonggang Huang.
J. Appl. Mech. Aug 2015, 82(8): 081009 (14 pages)
Published Online: August 1, 2015
Article history
Received:
April 14, 2015
Revision Received:
May 7, 2015
Online:
June 9, 2015
Citation
Chen, Y., Wang, Z., Wang, S., Zhou, Z., Zhang, J., and Liu, B. (August 1, 2015). "Carbon Nanotube Reinforced Composites: The Smaller Diameter, the Higher Fracture Toughness?." ASME. J. Appl. Mech. August 2015; 82(8): 081009. https://doi.org/10.1115/1.4030618
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