添加W对nb - 10mo - 10ti - 18si基原位复合材料抗压强度的影响

J. Sha, H. Hirai, T. Tabaru, A. Kitahara, Hidetoshi Ueno, S. Hanada
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引用次数: 13

摘要

铌固溶体/硅化铌原位复合材料作为高温结构材料具有广阔的应用前景。为进一步提高Nb- 10mo - 10ti - 18si共晶合金的高温强度,尝试用0、5、10、15 mol%W代替Nb加入钨,采用电弧铸造法制备试样,部分试样采用浮区熔融定向凝固,生长速率为15 mm/h, 1870 K退火100h后,对试样的显微组织、维氏硬度和高温抗压强度进行了检测。不含W的样品由共晶Nb固溶体和(Nb, Mo, Ti) 5si3硅化物组成,以W代替Nb形成初生Nb固溶体。定向凝固试样的显微组织较粗,且在生长方向上有取向,但没有表现出定向凝固材料的典型显微组织。随着W含量的增加,合金的维氏硬度逐渐升高。随着W含量的增加,合金在1670 K时的0.2%屈服强度(σ 0.2)和比0.2%屈服强度(σ 0.25) (σ 0.2除以密度)显著提高。定向凝固试样的σ 0.2和σ 0.2 s均高于弧铸试样。即使在1770 K时,15 mol% W的定向凝固试样在650 MPa左右的σ 0.2。
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Effect of W addition on compressive strength of Nb-10Mo-10Ti-18Si-base in-situ composites
Niobium solid solution/niobium silicides in-situ composites are expected to have applications in the future as high-temperature structural materials. To improve the high temperature strength further, we tried to add tungsten to Nb-10Mo-10Ti-18Si eutectic alloy by replacing Nb with 0, 5, 10 and 15 mol%W, The samples were prepared by arc casting and some of them were directionally solidified by the floating zone melting technique at a growth rate of 15 mm/h, After annealing at 1870 K for 100h, the microstructure, Vickers hardness and high-temperature compressive strength were examined. The samples without W consisted of eutectic Nb solid solution and (Nb, Mo, Ti) 5 Si 3 silicide, while primary Nb solid solution appeared as a result of substituting W for Nb. The microstructure of directionally solidified samples was coarse and oriented in the direction of growth, but they did not show the typical microstructure often observed in the case of directionally solidified materials. The Vickers hardness increased with increasing W content. The 0.2% yield strength (σ 0.2 ) and the specific 0.2% yield strength (σ 0.25 ) (σ 0.2 divided by the density) at 1670 K increased markedly with increasing W content. The directionally solidified samples showed higher σ 0.2 and σ 0.2S than the arc-cast samples. Even at 1770 K, the directionally solidified sample with 15 mol% W showed σ 0.2 of about 650 MPa.
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