双增强颗粒ADC-12合金复合材料的微观结构分析、显微硬度和压缩性能
摘要
能。本实验采用搅拌铸造法制备了用ADC-12合金复合材料增强的碳化硅和ZrSiO4颗粒。采用不同重量比例的双加固组合
(9 3)%、(6 6)%、(3 9)%wt,研究了这些复合材料的压缩性能。分别对碳化硅(碳化硅)和锆石砂(ZrSiO4)进行了压
缩试验,以确定抗压强度和杨氏模量,研究了加固材料对不同重量百分比组合的影响。研究结果表明,锆砂(ZrSiO4)和碳化硅
颗粒增强复合材料的拉伸强度为12%,在混合加固中变化(9 3)%,(6 6)%,(3 9)%考虑了用搅拌铸造技术合成的复
合材料的密度、抗压强度和硬度等性能,并进行了比较。力学性能评价显示了硬度和抗压强度值随复合材料组合的变化。实
验研究表明,基于微观结构和力学性能的ADC-12合金杂化钢筋的最佳体积分数为(6 6)wt.%组合。
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[1]S.Soresh,A.Mortensen,andA.Neddleman,
“Fundamentalsofmetalmatrixcomposites”,ButterworthHeinemam,16,297-298(2000).
[2]A.T.AlpasandJ.Zhang,“Wearratetransitionsincast
aluminumsiliconalloysreinforcedwithSiCparticles”,Scripta
MetallMater.,26,505-509(1992).
[3]H.Akbulut,M.Durman,andF.Yilmaz,“Drywearand
frictionpropertiesofAl2O3shortfiberreinforcedAl-Si(LM13)
alloymetalmatrixcomposites”,Wear,215,170-6(1998).[4]S.SkolianosandT.Z.Kattamis,“Tribologicalproperties
ofSiCreinforcedAl-4.5%Cu-1.5%Mgalloycomposites”,Mater.
Sci.Eng.A,163,107-12(1993).
[5]Y.Sahin,M.Kok,andH.Celik,“Toolwearandsurface
roughnessofAl2O3particlereinforcedaluminumalloycomposites”,
J.Mater.ProcessTechnol.,128,280-91(2002).
[6]M.K.Surappa,S.C.Prasad,andP.K.Rohatgi,“Wear
andabrasionofcastAl-Aluminaparticlecomposites,Wear,77,
295-312(1982).
[7]A.SatoandR.Mehrabian,“Aluminummatrixcomposite:
fabricationandproperties”,Metall.Trans.B,7B,443-51(1976).
[8]J.K.M.KwokandS.C.Lim,“High-speedtribological
propertiesofsomeAl/SiC
composites:Wearmechanisms”,Comp.Sci.Technol.,59,
65-75(1999).
[9]J.K.M.KwokandS.C.Lim,“High-speedtribological
propertiesofsomeAl/SiC
composites:Frictionalandwear-ratecharacteristics”,Comp.
Sci.Technol.,59,55-63(1999).
[10]A.T.AlpasandJ.Zhang,“Wearratetransitionsincast
aluminumsiliconalloysreinforcedwithSiCparticles”,Scripta
MetalMater.,26,505-509(1992).
[11]H.Akbulut,M.Durman,andF.Yilmaz,“Drywearand
frictionpropertiesofAl2O3shortfiberreinforcedAl-Si(LM13)
alloymetalmatrixcomposites”,Wear,215,170-6(1998).
[12]S.SkolianosandT.Z.Kattamis,“Tribologicalproperties
ofSiCreinforcedAl-4.5%Cu-1.5%Mgalloycomposites”,Mater.
Sci.Eng.A,163,107-12(1993).
[13]Y.Sahin,M.KokandH.Celik,“Toolwearandsurface
roughnessofAl2O3particlereinforcedaluminumalloycomposites”,
J.Mater.ProcessTechnol.,128,280-91(2002).
[14]M.K.Surappa,S.C.PrasadandP.K.Rohatgi,“Wear
andabrasionofcastAl-Aluminaparticlecomposites”,Wear,77,
295-312(1982).
[15]A.SatoandR.Mehrabian,“Aluminummatrixcomposite:
fabricationandproperties”,MetalTrans.B,7B,443-51(1976).
[16]A.Banerji,S.V.Prasad,M.K.Surappa,andP.K.
Rohatgi,“Abrasivewearofcastaluminumalloy-zirconparticle
composites”,Wear,82,141-151(1982).
[17]TheAmericanSocietyforTestingandMaterials,
HandbookofStandardTestMethodofTensionTestingWrought
andCastAluminumandMagnesiumAlloyproducts-B557,The
AmericanSocietyforTestingandMaterials,1994.International
JournalofMining,Metallurgy&MechanicalEngineering
(IJMMME)Volume1,Issue1(2013)ISSN2320-4060(Online)
[18]ManojSingla,D.DeepakDwivedi,LakhvirSingh,Vikas
Chawla-“DevelopmentofAluminiumBasedSiliconCarbide
ParticulateMetalMatrixComposite”.JournalofMinerals&
MaterialsCharacterization&Engineering,page455-467,2009.
[19]Wang,Y.-Q.,Song,J.-I.,DrySlidingWearBehaviorof
Al2O3FibreandSiCParticleReinforcedAluminumbasedMMCs
FabricatedbySqueezeCastingMethod,TransactionsofNonferrous
MetalsSocietyofChina,21(7)(2011)1441-1448.
DOI: http://dx.doi.org/10.12361/2661-3506-04-21-110796
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