Elevated temperature ablation resistance of HfC particle-reinforced tungsten composites

Dongju Lee; Malik Adeel Umer; Ho J. Ryu

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Elevated temperature ablation resistance of HfC particle-reinforced tungsten composites

机译：HfC颗粒增强钨复合材料的高温抗烧蚀性

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The effects of adding HfC particles on the ablation resistance of HfC-W composites were investigated. An oxy-acetylene torch was used to ablate the samples at high temperature. Ablation resistance improved with an increasing volume fraction of HfC particles, with a value of 15.7 × 10~(-3) g/cm~2-s at 30 vol.%. The mass ablation rates of the composites were much lower than those of monolithic tungsten. The improvement in ablation resistance was attributed to thermochemical oxidation of the W and HfC particles, forming an HfO_2 layer on the surface. The outstanding elevated temperature ablation resistance of HfC-W was attributed to the low thermal conductivity, high oxidation resistance, and high melting point of the HfC reinforcement.

机译：研究了添加HfC颗粒对HfC-W复合材料耐烧蚀性的影响。使用氧-乙炔炬在高温下烧蚀样品。随着HfC颗粒体积分数的增加，耐烧蚀性得到改善，在30％（体积）时其耐火值为15.7×10〜（-3）g / cm〜2-s。复合材料的质量消融速率远低于整体钨的质量消融速率。耐烧蚀性的提高归因于W和HfC颗粒的热化学氧化，在表面形成了HfO_2层。 HfC-W出色的高温抗烧蚀性归因于HfC增强材料的低导热性，高抗氧化性和高熔点。

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《International Journal of Refractory Metals & Hard Materials》 |2014年第3期|共5页
作者
Dongju Lee; Malik Adeel Umer; Ho J. Ryu;
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正文语种 eng
中图分类有色金属及其合金;
关键词
Composite materials; Powder metallurgy; Sintering; Ablation properties; Microstructure;

机译：复合材料;粉末冶金;烧结;烧蚀性能;显微组织;

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1. Elevated temperature ablation resistance of HfC particle-reinforced tungsten composites [J] . Dongju Lee, Malik Adeel Umer, Ho J. Ryu International Journal of Refractory Metals & Hard Materials . 2014,第Mara期

机译：HfC颗粒增强钨复合材料的高温抗烧蚀性
2. Elevated temperature ablation resistance and thermophysical properties of tungsten matrix composites reinforced with ZrC particles [J] . Song GM., Zhou Y., Wang YJ. Journal of Materials Science . 2001,第19期

机译：ZrC颗粒增强钨基复合材料的高温抗烧蚀性和热物理性能
3. Elevated temperature ablation resistance and thermophysical properties of tungsten matrix composites reinforced with ZrC particles [J] . G. M. Song, Y. J. Wang, Y. Zhou Journal of Materials Science . 2001,第19期

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4. MONITORING DAMAGE ACCUMULATION USING ACOUSTIC EMISSION AND ELECTRICAL RESISTANCE AT ROOM AND ELEVATED TEMPERATURES OF SIC-BASED COMPOSITES [C] . Gregory N Morscher Advanced ceramic matrix composites: science and technology of materials, design, applications, performance and integration . 2017

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8. Elevated-Temperature Tensile Properties of Alloyed Tungsten Fiber Composites [R] . Petrasek, D. W. 1965

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Elevated temperature ablation resistance of HfC particle-reinforced tungsten composites

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