粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2013年
5期
669-674
,共6页
窦玉海%刘咏%刘延斌%夏庆兵
竇玉海%劉詠%劉延斌%夏慶兵
두옥해%류영%류연빈%하경병
高硅铝合金%机械合金化%热压%抗压强度%摩擦磨损性能
高硅鋁閤金%機械閤金化%熱壓%抗壓彊度%摩抆磨損性能
고규려합금%궤계합금화%열압%항압강도%마찰마손성능
high-silicon aluminum alloy%mechanical alloying%hot pressing%compressive strength%friction and wear properties
通过机械合金化结合热压致密化的工艺制备Al-30Si、Al-40Si、Al-50Si 3种成分的高硅铝合金,采用金相、SEM、EDS、压缩实验、摩擦磨损试验等对合金的组织、抗压强度及摩擦磨损性能等进行研究。结果表明:合金显微组织中呈现Al相富集区、Si相富集区和铝硅混合区3种区域,且合金中Si颗粒细小,没有明显长大的现象。合金的抗压强度随Si含量的增加先升高后降低。Al-40Si合金具有最佳的耐磨性和减摩性,其磨损机理主要是磨粒磨损和氧化磨损。除磨粒磨损外,Al-30Si合金磨损初期存在粘着磨损,后期则以氧化磨损为主,而Al-50Si则存在较严重的剥层磨损。
通過機械閤金化結閤熱壓緻密化的工藝製備Al-30Si、Al-40Si、Al-50Si 3種成分的高硅鋁閤金,採用金相、SEM、EDS、壓縮實驗、摩抆磨損試驗等對閤金的組織、抗壓彊度及摩抆磨損性能等進行研究。結果錶明:閤金顯微組織中呈現Al相富集區、Si相富集區和鋁硅混閤區3種區域,且閤金中Si顆粒細小,沒有明顯長大的現象。閤金的抗壓彊度隨Si含量的增加先升高後降低。Al-40Si閤金具有最佳的耐磨性和減摩性,其磨損機理主要是磨粒磨損和氧化磨損。除磨粒磨損外,Al-30Si閤金磨損初期存在粘著磨損,後期則以氧化磨損為主,而Al-50Si則存在較嚴重的剝層磨損。
통과궤계합금화결합열압치밀화적공예제비Al-30Si、Al-40Si、Al-50Si 3충성분적고규려합금,채용금상、SEM、EDS、압축실험、마찰마손시험등대합금적조직、항압강도급마찰마손성능등진행연구。결과표명:합금현미조직중정현Al상부집구、Si상부집구화려규혼합구3충구역,차합금중Si과립세소,몰유명현장대적현상。합금적항압강도수Si함량적증가선승고후강저。Al-40Si합금구유최가적내마성화감마성,기마손궤리주요시마립마손화양화마손。제마립마손외,Al-30Si합금마손초기존재점착마손,후기칙이양화마손위주,이Al-50Si칙존재교엄중적박층마손。
Three kinds of high-silicon aluminum alloys (Al-30Si, Al-40Si and Al-50Si) were fabricated by mechanical alloying and hot pressing. The microstructures, compressive strengths and wear-friction properties of the alloys were investigated by metalloscope, scanning electron microscopy (SEM), energy dispersive spectrometry (EDS), compression tests and friction-wear tests. The results show that the microstructure of the alloys contains Al-rich region, Si-rich region and Al-Si mixed region, and the ultrafine Si particles in the matrix do not grow up obviously after the hot pressing process. The compressive strength of the alloys increases firstly and then decreases with increasing Si content. Al-40Si has the lowest mass loss and friction coefficient, its wear mechanism is mainly abrasive wear and oxidation wear. Besides abrasive wear, the wear mechanism of Al-30Si alloy contents adhesive wear at the beginning and then following oxidative wear, while Al-50Si alloy contents distinctly desquamation wear.
