J Li scite author profile

J Li

4Publications

38Citation Statements Received

18Citation Statements Given

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Affiliations

Dalian University of Technology, Dalian University

Publications

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Measurement and analysis of fiber-matrix interface strength of carbon fiber-reinforced phenolic resin matrix composites

Sha

Dai

et al. 2013

Journal of Composite Materials

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Since fiber-matrix interface strength is critical to properties of carbon fiber-reinforced composites, measurement and analysis of interface strength are crucial steps in tailored design of composites. In the present work, the single fiber push-out test and the short-beam shear test were applied to measure the fiber-matrix interface strength in uni-directionally and two-directionally carbon fiber-reinforced phenolic resin matrix composites. The technical difficulties in processing the specimen and in realizing the fiber push-out were also discussed and clarified. For obtaining the successful test, typically, the thickness of the specimen should be smaller than 100 mm. During the fiber push-out, the de-bonding and fiber sliding at the interface were analyzed from the load-displacement curve features. The results indicated that both methods could be applied to determine the interface strength. The single fiber push-out and the short-beam shear tests resulted in a similar phenomenon in regard to the interface strength of uni-directionally and two-directionally carbon fiber-reinforced phenolic resin matrix composites, but expressed different values. The low interface strength measured from the short-beam shear test could be associated with multiple interlaminar shear failures. Furthermore, it was found that the interface strength of uni-directionally carbon fiber-reinforced phenolic resin matrix composites is somewhat higher than that of two-directionally carbon fiber-reinforced phenolic resin matrix composites. The difference in the interface strength could be attributed to the thermally induced residual stresses caused by the coefficient of thermal expansion mismatch of fiber and matrix. The approaches applied in the current work can be used for the evaluation of the interface strength of carbon fiber-reinforced phenolic resin matrix composites with different fiber-matrix bonding properties.

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Numerical simulation of horizontal continuous casting process of round copper billet with electromagnetic stirring

Sha

Wang

et al. 2011

International Journal of Cast Metals Research

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Continuous casting novel mould for round steel billet optimised by solidification shrinkage simulation

Cai

Wang

et al. 2011

Materials Research Innovations

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Role of energy input model on the remediation of the p-Nitrophenol contaminated over-wet soil by pulsed corona discharge plasma

Wang

Zhang

Wang

et al. 2013

J. Phys.: Conf. Ser.

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J Li

Measurement and analysis of fiber-matrix interface strength of carbon fiber-reinforced phenolic resin matrix composites

Numerical simulation of horizontal continuous casting process of round copper billet with electromagnetic stirring

Continuous casting novel mould for round steel billet optimised by solidification shrinkage simulation

Role of energy input model on the remediation of the p-Nitrophenol contaminated over-wet soil by pulsed corona discharge plasma

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