Two kinds of W-0.5?wt.%TiC alloys were prepared, one by ball milling and the other by the wet chemical method. For comparison, pure tungsten powders were ch'/> Microstructures, Mechanical Properties and Thermal Conductivities of W-0.5?wt.%TiC Alloys Prepared via Ball Milling and Wet Chemical Method
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Microstructures, Mechanical Properties and Thermal Conductivities of W-0.5?wt.%TiC Alloys Prepared via Ball Milling and Wet Chemical Method

机译:W-0.5≤WT。通过球磨和湿化学法制备的W-0.5≤WT.%TiC合金的微观结构,机械性能和热导体

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AbstractTwo kinds of W-0.5?wt.%TiC alloys were prepared, one by ball milling and the other by the wet chemical method. For comparison, pure tungsten powders were chemically prepared and sintered by the same process. The microstructures, mechanical properties and thermal conductivities of the prepared samples were characterized. It has been found that the wet chemical method resulted in finer sizes and more uniform distribution of TiC particles in the sintered tungsten matrix than the ball milling method. The W-TiC alloy prepared by the wet chemical method achieved the highest bending strength (1065.72?MPa) among the samples. Further, it also exhibited obviously higher thermal conductivities in the temperature range of room temperature to 600°C than did the W-TiC alloy prepared by ball milling, but the differences in their thermal conductivities could be ignored in the range of 600–800°C.
机译:<标题>抽象 ara id =“par1”>两种w-0.5?wt。制备%TiC合金,通过球磨,另一个通过湿化学方法。 为了比较,通过相同的方法化学制备和烧结纯钨粉末。 表征了制备样品的微观结构,机械性能和热导体。 已经发现,湿化学方法导致烧结钨基质中的尺寸细化和更均匀的TiC颗粒分布而不是球磨法。 通过湿化学方法制备的W-TiC合金在样品中获得了最高的弯曲强度(1065.72μm≤MPa)。 此外,它还在室温的温度范围内显示出明显较高的热导体至600℃,而不是通过球磨制备的W-TIC合金,但在600-800°的范围内,它们的热导体的差异可以忽略 c。

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  • 来源
    《JOM》 |2017年第10期|共5页
  • 作者

    Shaoting Lang; Qingzhi Yan; Ningbo Sun; Xiaoxin Zhang; Changchun Ge;

  • 作者单位

    Institute of Nuclear Materials University of Science and Technology Beijing;

    Institute of Nuclear Materials University of Science and Technology Beijing;

    Institute of Nuclear Materials University of Science and Technology Beijing;

    Institute of Nuclear Materials University of Science and Technology Beijing;

    Institute of Nuclear Materials University of Science and Technology Beijing;

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  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 有色金属冶炼;金属学与金属工艺;
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