Cermet microstructure and mechanical properties: Influence of metallic additives (Mo, Si, Ti, V) in WC-5wt%co composites fabricated via spark plasma sintering

IF 4.2 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Ehsan Ghasali , Saleem Raza , Andrii Babenko , Masoud Alizadeh , Touradj Ebadzadeh , Li Jie , Yasin Orooji
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引用次数: 0

Abstract

This study examined the impact of metallic additives (Mo, Si, Ti, and V) on the microstructure and mechanical properties of WC-5wt%Co cermets prepared via spark plasma sintering. Four different batches of WC-5 wt% Co each supplemented with 5 wt% metallic additive powders were mixed through a high-energy mixing/short-time process to obtain a uniform distribution of the binder phase and each of the additives. Spark plasma sintering was primarily conducted at 1350 °C for all the prepared samples, but the WC-Co-Si sample required a lower temperature of 1200 °C due to binder phase melting. XRD analysis revealed WC as the dominant phase, with additional carbide compounds detected, except in the Mo-doped sample, which formed Co6Mo6C. The Ti-doped specimen exhibited the best mechanical properties, including a bending strength of 1078 MPa, Vickers hardness of 2547, and fracture toughness of 11.96 MPa·m1/2, attributed to solid solution formation between WC and TiC. The study highlights the role of additive-induced reactions in enhancing mechanical properties and controlling grain growth.

金属陶瓷的微观结构和机械性能:通过火花等离子烧结制造的 WC-5wt%co 复合材料中金属添加剂(钼、硅、钛、钒)的影响
本研究考察了金属添加剂(Mo、Si、Ti 和 V)对通过火花等离子烧结制备的 WC-5wt%Co 金属陶瓷的微观结构和机械性能的影响。四种不同批次的 WC-5 wt%Co 均添加了 5 wt% 的金属添加剂粉末,通过高能量混合/短时间工艺进行混合,以获得粘合剂相和每种添加剂的均匀分布。所有制备的样品主要在 1350 ℃ 下进行火花等离子烧结,但 WC-Co-Si 样品由于粘合剂相熔化,需要较低的 1200 ℃ 温度。XRD 分析表明,WC 是主要相,除掺杂 Mo 的样品形成 Co6Mo6C 外,还检测到其他碳化物。掺 Ti- 的试样表现出最佳的机械性能,包括 1078 兆帕的抗弯强度、2547 的维氏硬度和 11.96 兆帕-m1/2 的断裂韧性,这归功于 WC 和 TiC 之间形成的固溶体。该研究强调了添加剂诱导反应在提高机械性能和控制晶粒生长方面的作用。
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来源期刊
CiteScore
7.00
自引率
13.90%
发文量
236
审稿时长
35 days
期刊介绍: The International Journal of Refractory Metals and Hard Materials (IJRMHM) publishes original research articles concerned with all aspects of refractory metals and hard materials. Refractory metals are defined as metals with melting points higher than 1800 °C. These are tungsten, molybdenum, chromium, tantalum, niobium, hafnium, and rhenium, as well as many compounds and alloys based thereupon. Hard materials that are included in the scope of this journal are defined as materials with hardness values higher than 1000 kg/mm2, primarily intended for applications as manufacturing tools or wear resistant components in mechanical systems. Thus they encompass carbides, nitrides and borides of metals, and related compounds. A special focus of this journal is put on the family of hardmetals, which is also known as cemented tungsten carbide, and cermets which are based on titanium carbide and carbonitrides with or without a metal binder. Ceramics and superhard materials including diamond and cubic boron nitride may also be accepted provided the subject material is presented as hard materials as defined above.
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