B4C-CrB2 陶瓷的反应热压及其力学性能

IF 0.5 4区 工程技术 Q4 MECHANICS Journal of Applied Mechanics and Technical Physics Pub Date : 2024-10-28 DOI:10.1134/S0021894424020068
D. V. Dik, T. S. Gudyma, A. A. Filippov, V. M. Fomin, Yu. L. Krutskii
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引用次数: 0

摘要

通过在 17.5 兆帕的单轴压力和 2000 ℃ 的温度下对 B4C、Cr2O3 和纳米纤维碳的混合物进行反应热压 10 分钟,获得了基于 B4C 且 CrB2 分子分数为 0-30% 的陶瓷复合材料。研究了热压过程中碳化硼还原金属氧化物的可能性。在合成 CrB2 的过程中,发现由于 CrB2-B4C 共晶液相的形成,B4C 的密度增大。在这些条件下获得的所有 B4C-CrB2 复合材料的相对密度都超过了 90%。实验得出了样品的显微硬度和弹性模量与 CrB2 塑性相浓度的关系。异质材料的弹性模量与二硼化铬体积分数的关系是在考虑到孔隙率的情况下,通过连续使用 Reuss 和 Voigt 平均方案确定的。
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REACTIVE HOT PRESSING OF B4C–CrB2 CERAMICS AND ITS MECHANICAL PROPERTIES

Ceramic composites based on B4C with a CrB2 mole fraction of 0–30% were obtained by reactive hot pressing of a mixture of B4C, Cr2O3, and nanofibrous carbon at a uniaxial pressure of 17.5 MPa and a temperature of 2000 °C for 10 min. The possibility of boron carbide reduction of metal oxide during hot pressing was studied. During the synthesis of CrB2, the density of B4C was found to increase due to the formation of the CrB2–B4C eutectic liquid phase. The relative density of all B4C–CrB2 composites obtained under these conditions exceeds 90%. Experimental dependences of the microhardness and elastic modulus of samples on the concentration of the CrB2 plastic phase were obtained. The dependences of the elastic modulus of the heterogeneous material on the volume fraction of chromium diboride were determined taking into account porosity by sequentially using the Reuss and Voigt averaging schemes.

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来源期刊
CiteScore
1.20
自引率
16.70%
发文量
43
审稿时长
4-8 weeks
期刊介绍: Journal of Applied Mechanics and Technical Physics is a journal published in collaboration with the Siberian Branch of the Russian Academy of Sciences. The Journal presents papers on fluid mechanics and applied physics. Each issue contains valuable contributions on hypersonic flows; boundary layer theory; turbulence and hydrodynamic stability; free boundary flows; plasma physics; shock waves; explosives and detonation processes; combustion theory; multiphase flows; heat and mass transfer; composite materials and thermal properties of new materials, plasticity, creep, and failure.
期刊最新文献
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