铜、黄铜和银基填充金属钎焊 WC-6%Co/AISI 1045 钢接头的微观结构评估和机械性能:填充材料的选择

IF 3.8 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Farzad Habibi , Amir Mostafapour , Karim Heydarpour
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引用次数: 0

摘要

由于整体硬质合金工具的生产成本较高,而且其性质较脆,WC-Co 等硬质合金经常与工具钢连接在一起。为了克服因部件间热膨胀率的显著差异和润湿性差而导致的连接复杂性,不同的研究人员使用铜基和银基填充金属将硬质合金与钢进行异种钎焊。然而,研究人员对填充材料的选择并不一致。本研究调查了使用纯铜、黄铜和银基填充金属将 WC-Co 硬质合金与 AISI 1045 钢连接起来的情况。在这方面,研究了微观结构特征和机械性能,包括显微硬度和剪切强度。结果表明,在接合界面上形成了 Cu(Fe,Co)固溶体和 η 碳化物,并在接合区域形成了由铁-锌和钴-锌金属间化合物组成的各种析出相。在接头两侧观察到反应层,同时在硬金属一侧观察到贫钴区。在使用 α-β 黄铜夹层时,与纯铜相比,通过(Cu,Zn)固溶体的存在提高了接合区域的硬度,接合处的剪切强度从 161 兆帕提高到 173 兆帕。另一方面,利用银基填料合金,在富含银的韧性基体(88 HV)中嵌入分布坚硬的富铜固溶相(182 HV),产生分散硬化效应,将接头的剪切强度提高到 203 MPa。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microstructural evaluation and mechanical properties of WC-6%Co/AISI 1045 steel joints brazed by copper, brass, and Ag-based filler metals: Selection of the filler material

Due to the higher production cost of the monolithic carbide tools as well as their brittle nature, cemented carbides such as WC-Co are frequently joined to tool steel. To overcome the joining complications that arise due to notable differences in thermal expansions between the components and the poor wettability, various investigators have used copper-based and silver-based filler metals to dissimilarly braze the cemented carbides to steels. However, researchers do not agree about the selection of filler material. This research investigates the use of pure copper, brass, and silver-based filler metals to join the WC-Co cemented carbide to AISI 1045 steel. In this regard, microstructural features and mechanical properties including microhardness and shear strength were studied. The results indicate the formation of Cu(Fe,Co) solid solution and η carbides at the joint interfaces as well as the development of various precipitated phases in the joint area comprising Fe-Zn and Co-Zn intermetallic compounds. The reaction layers at both sides of the joints accompanied by cobalt-depleted zone on the hard metal side were observed. While using the αβ brass interlayer, the increase in hardness of the joint area through the presence of (Cu,Zn) solid solution compared to pure copper, the joint shear strength was enhanced from 161 to 173 MPa. On the other hand, the utilization of silver-based filler alloy with a distribution of hard copper-rich solid solution phase (182 HV) embedded in a silver-rich ductile matrix (88 HV), presenting a dispersion hardening effect, improved the shear strength of the joint to 203 MPa.

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来源期刊
CiteScore
7.10
自引率
9.80%
发文量
58
审稿时长
44 days
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