铝含量对火花等离子烧结镍铝青铜组织和致密化的影响

IF 1.9 Q3 ENGINEERING, MANUFACTURING Manufacturing Review Pub Date : 2021-01-01 DOI:10.1051/MFREVIEW/2021006
A. M. Okoro, S. Lephuthing, S. R. Oke, P. Olubambi
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引用次数: 2

摘要

本研究采用火花等离子烧结技术对具有明显致密性和显微硬度提高的镍铝青铜合金(NAB)进行固结。以镍(4 wt.%)、铝(6 wt.%、8 wt.%和10 wt.%)和铜为原料,采用干磨法合成了NAB合金。起始粉采用温和球磨机,转速为150转/分,BPR为10:1,均匀研磨8 h。随后,使用火花等离子烧结技术在750°C、50 MPa的压缩压力和100°C/min的加热速率下对研磨好的粉末进行固结。采用SEM和XRD对粉末和烧结合金进行了表征,确定了NAB合成过程中的微观组织和物相演变规律。进一步研究了合金的密度和显微硬度,以确定烧结合金的完整性。结果表明,铝含量的增加导致合金烧结后形成金属间相和β相,合金的显微硬度随着铝含量的增加而提高。
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Influence of aluminium content on the microstructure and densification of spark plasma sintered nickel aluminium bronze
In this study, nickel aluminium bronze alloys (NAB) with appreciable densification and improved microhardness was consolidated via spark plasma sintering technique. The NAB alloy was synthesized from starting elemental powders comprised nickel (4 wt.%), aluminium (6, 8 & 10 wt.%) and copper using dry milling technique. Starting powders were homogeneously milled using gentle ball mill for 8 h at a speed of 150 rpm and a BPR of 10:1. Subsequently, the milled powders were consolidated using the spark plasma sintering technique at 750 °C under a compressive pressure of 50 MPa and rate of heating (100 °C/min). Furthermore, the powders and sintered alloys were characterized using SEM and XRD to ascertain the microstructural and phase evolutions during the synthesis of the NAB. The density and microhardness of the alloys were further investigated to ascertain the integrity of the sintered alloys. The results indicated that the increase in aluminium content resulted in the formation of intermetallic and beta phases on the alloy after sintering and the microhardness of the alloys improved with the increase in aluminium content.
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来源期刊
Manufacturing Review
Manufacturing Review ENGINEERING, MANUFACTURING-
CiteScore
5.40
自引率
12.00%
发文量
20
审稿时长
8 weeks
期刊介绍: The aim of the journal is to stimulate and record an international forum for disseminating knowledge on the advances, developments and applications of manufacturing engineering, technology and applied sciences with a focus on critical reviews of developments in manufacturing and emerging trends in this field. The journal intends to establish a specific focus on reviews of developments of key core topics and on the emerging technologies concerning manufacturing engineering, technology and applied sciences, the aim of which is to provide readers with rapid and easy access to definitive and authoritative knowledge and research-backed opinions on future developments. The scope includes, but is not limited to critical reviews and outstanding original research papers on the advances, developments and applications of: Materials for advanced manufacturing (Metals, Polymers, Glass, Ceramics, Composites, Nano-materials, etc.) and recycling, Material processing methods and technology (Machining, Forming/Shaping, Casting, Powder Metallurgy, Laser technology, Joining, etc.), Additive/rapid manufacturing methods and technology, Tooling and surface-engineering technology (fabrication, coating, heat treatment, etc.), Micro-manufacturing methods and technology, Nano-manufacturing methods and technology, Advanced metrology, instrumentation, quality assurance, testing and inspection, Mechatronics for manufacturing automation, Manufacturing machinery and manufacturing systems, Process chain integration and manufacturing platforms, Sustainable manufacturing and Life-cycle analysis, Industry case studies involving applications of the state-of-the-art manufacturing methods, technology and systems. Content will include invited reviews, original research articles, and invited special topic contributions.
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