Zhong Guang Wang scite author profile

Zhong Guang Wang

5Publications

48Citation Statements Received

63Citation Statements Given

How they've been cited

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Affiliations

Qingdao University of Science and Technology, Chinese Academy of Sciences, Academia Sinica

Publications

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Fracture Toughness of a 6061Al Matrix Composite Reinforced with Fine SiC Particles

et al. 2002

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The fracture toughness of 6061Al alloy metal matrix composite reinforced with 15 vol% fine SiC particles of 600 nm in size under a high temperature over-aged condition was studied. And the toughness of the 6061Al matrix alloy and the same matrix alloy reinforced with coarse SiC particles of 9.5 µm were also measured for comparison. Fracture toughness tests were conducted on a servo-hydraulic testing machine by using three point bending specimens. The results showed that the toughness of the fine particle reinforced composite was obviously higher than that of the coarse particle reinforced composite in terms of crack initiation toughness, crack propagation energy and total absorbed energy. The mechanisms controlling the fracture toughness of the two composites reinforced with fine and coarse SiC particles were discussed based upon the measured toughness data and microstructure examinations by means of an optical microscope and a scanning electron microscope.

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Fatigue and Fracture Behaviors of Discontinuously Reinforced Aluminum Matrix Composites

Wang

Sun

1995

KEM

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Dynamic fracture toughness of 6061Al composites reinforced with SiC particulates

Qian¹,

Kobayashi²,

Toda³

et al. 2001

Materials Science and Engineering: A

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<I>In-situ</I> Observations of Fracture Processes in 0.6 μm and 9.5 μm SiC<SUB>P</SUB>/6061Al Composites

et al. 2005

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In-situ SEM observations of fracture processes in two 6061Al alloy composites reinforced with coarse and fine SiC particles, respectively, were carried out to clarify their fracture mechanisms. It was found that in the coarse particle reinforced composite, voids were formed in the matrix around SiC particles ahead of the main crack tip, then coalesced with each other, and finally connected with the main crack tip, causing propagation of the main crack. However, in the fine particle reinforced composite, multiple micro-cracks were formed at the boundaries between SiC particle clusters and surrounding matrix or within the clusters, then connected with each other, and finally joined with the main crack tip, leading to crack branching and growth of the main crack. Crack branching, multiple cracking and crack deflection were proposed to contribute to the enhanced fracture toughness in the fine particle reinforced composite compared with the coarse particle reinforced composite.

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SEM-ECC Investigation of Dislocation Arrangements in Cyclically Deformed Copper Single Crystals with Different Crystallographic Orientations

Zhang

Wang

et al. 2001

DDF

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Zhong Guang Wang

Fracture Toughness of a 6061Al Matrix Composite Reinforced with Fine SiC Particles

Fatigue and Fracture Behaviors of Discontinuously Reinforced Aluminum Matrix Composites

Dynamic fracture toughness of 6061Al composites reinforced with SiC particulates

<I>In-situ</I> Observations of Fracture Processes in 0.6 μm and 9.5 μm SiC<SUB>P</SUB>/6061Al Composites

SEM-ECC Investigation of Dislocation Arrangements in Cyclically Deformed Copper Single Crystals with Different Crystallographic Orientations

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Zhong Guang Wang

Fracture Toughness of a 6061Al Matrix Composite Reinforced with Fine SiC Particles

Fatigue and Fracture Behaviors of Discontinuously Reinforced Aluminum Matrix Composites

Dynamic fracture toughness of 6061Al composites reinforced with SiC particulates

<I>In-situ</I> Observations of Fracture Processes in 0.6 &mu;m and 9.5 &mu;m SiC<SUB>P</SUB>/6061Al Composites

SEM-ECC Investigation of Dislocation Arrangements in Cyclically Deformed Copper Single Crystals with Different Crystallographic Orientations

Contact Info

Product

Resources

About

<I>In-situ</I> Observations of Fracture Processes in 0.6 μm and 9.5 μm SiC<SUB>P</SUB>/6061Al Composites