模型铌基富铬铸造合金的显微组织和硬度

IF 1.9 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Advances in Materials Research-An International Journal Pub Date : 2018-01-01 DOI:10.12989/AMR.2018.7.1.017
P. Berthod, Melissa Ritouet-Leglise
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引用次数: 1

摘要

铌是用于特殊高温下应用的新合金的候选基。通过常规铸造工艺对铌基合金进行精加工和成形,可以获得机械上有趣的显微组织。本文采用冷坩埚高频感应熔融法制备了一系列由纯元素组成的高熔点Nb-xCr和Nb-xCr-0.4 wt.%C合金(x= 27,34和37 wt.%)。成功地实现了熔融和凝固。用电子显微镜和x射线衍射对合金的铸态组织进行了表征,用维氏宏观压痕测定了合金的硬度。铸态组织由体心立方(bcc)铌枝晶基体和枝晶间共晶化合物组成,包括bcc Nb相和NbCr2 Laves相。得到的合金难以切割,在室温下特别脆。硬度高(高于600Hv),直接受铬含量或{bcc Nb - NbCr2}共晶化合物用量的影响。添加0.4 wt.%的碳不会产生碳化物,但有增加硬度的趋势。
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Microstructures and hardness of model niobium-based chromium-rich cast alloys
Niobium is a candidate base for new alloys devoted to applications at especially elevated temperatures. Elaborating and shaping niobium-based alloys by conventional foundry may lead to mechanically interesting microstructures. In this work a series of charges constituted of pure elements were subjected to high frequency induction melting in cold crucible to try obtaining cast highly refractory Nb-xCr and Nb-xCr-0.4 wt.%C alloys (x=27, 34 and 37 wt.%). Melting and solidification were successfully achieved. The as-cast microstructures of the obtained alloys were characterized by electron microscopy and X-ray diffraction and their hardness were specified by Vickers macro-indentation. The obtained as-cast microstructures are composed of a body centered cubic (bcc) niobium dendritic matrix and of an interdendritic eutectic compound involving the bcc Nb phase and a NbCr2 Laves phase. The obtained alloys are hard to cut and particularly brittle at room temperature. Hardness is of a high level (higher than 600Hv) and is directly driven by the chromium content or the amount of {bcc Nb – NbCr2} eutectic compound. Adding 0.4 wt.% of carbon did not lead to carbides but tends to increase hardness.
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来源期刊
Advances in Materials Research-An International Journal
Advances in Materials Research-An International Journal MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
3.50
自引率
27.30%
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0
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