期刊
MATERIALS
卷 15, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/ma15114004
关键词
functionally gradient materials; digital image correlation; gradient interface; speckles; surface measurements; optical methods
类别
资金
- Natural Science Foundation of Ningxia [2020AAC03192]
- Fundamental Scientific Research Expenses of Central Universities of North Minzu University [2021KJCX12]
This study investigated the effect of gradient interface on the mechanical properties of Cu/WCP functional gradient materials using digital image correlation technique. The experimental results showed that the incorporation of WC particles significantly improved the stiffness and strength of the materials. The plastic strain and strain rate were non-uniform in each layer, and increased along the decreasing direction of WC content. Analysis of the experimental results revealed that the gradient interface had an obvious inhibitory effect on the increase in strain rate, and the location of specimen fracture was related to the strain rate, reflecting the important influence of the gradient interface on the mechanical properties of Cu/WCP functional gradient materials.
In order to investigate the effect of gradient interface on the mechanical properties of Cu/WCP functional gradient materials, digital image correlation technique was used to analyze the mechanical characteristics of laminated Cu/WCP functional gradient material under tension load in the layer direction. In this paper, the deformation information of the specimens is obtained by the digital image correlation method. In order to obtain high-precision measurement results, speckle patterns with small spots and uniform distribution are prepared on the specimen surface by using small sample speckle preparation technology. The tensile experimental results showed that the incorporation of WC particles significantly improved the stiffness and strength of Cu/WCP composites. Meanwhile, the plastic strain and plastic strain rate are non-uniform in each layer of the five-layer Cu/WCP functional gradient material under the tension load along the layer direction. The plastic strain and plastic strain rate in each layer gradually increase along with the decreasing direction of WC content. It is found, from the analysis of experimental results, the existence of the gradient interface has an obvious inhibitory effect on the increase in plastic strain rate along the decreasing direction of WC content, and the specimen fracture location also has a certain relationship with the plastic strain rate, which reflects the important influence of the gradient interface on the mechanical properties of Cu/WCP functional gradient materials.
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