MODELING OF THE CRACK PROPAGATION IN SUBMICRON AND NANOSTRUCTURED HARD ALLOYS

M. I. Dvornik; E. A. Mikhailenko

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MODELING OF THE CRACK PROPAGATION IN SUBMICRON AND NANOSTRUCTURED HARD ALLOYS

机译：亚微米和纳米结构硬质合金中裂纹扩展的建模

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The process of crack propagation from the pore in modeled microstructures of the submicron and nanostructured WC/C_0 hard alloys with different volume fractions of the cobalt phase was studied. Strengths of these alloys were found. The correspondence of the energy release rate to the component fracture toughness was the criterion of crack propagation through cobalt interlayers and carbide grains. To calculate energy release rate, the stress state was simulated by the finite-element method. It was shown that stresses required for crack propagation reach the maximum value, when the crack comes up to the middle of the cobalt interlayer after tungsten carbide destruction.

机译：研究了具有不同体积分数钴相的亚微米和纳米结构的WC / C_0硬合金的微观组织模型中从孔中裂纹扩展的过程。发现了这些合金的强度。能量释放速率与组分断裂韧性的对应关系是裂纹通过钴中间层和碳化物晶粒扩展的标准。为了计算能量释放速率，通过有限元方法模拟了应力状态。结果表明，当碳化钨破坏后裂纹到达钴中间层的中间时，裂纹扩展所需的应力达到最大值。

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来源
《International journal of nanomechanics science and technology》 |2013年第3期|197-210|共14页
作者
M. I. Dvornik; E. A. Mikhailenko;
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作者单位

Institute of Materials Science of the Khabarovsk Science Center, Far Eastern Branch of the Russian Academy of Sciences, Khabarovsk, Russia;

Institute of Materials Science of the Khabarovsk Science Center, Far Eastern Branch of the Russian Academy of Sciences, Khabarovsk, Russia;

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正文语种 eng
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关键词
finite-element method; strength; energy release rate; hard alloy;

机译：有限元法强度;能量释放率;硬质合金;

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MODELING OF THE CRACK PROPAGATION IN SUBMICRON AND NANOSTRUCTURED HARD ALLOYS

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