Microstructural and mechanical properties of Al-4.5wt% Cu reinforced with alumina nanoparticles by stir casting method 被引量：7

Microstructural and mechanical properties of Al-4.5wt% Cu reinforced with alumina nanoparticles by stir casting method

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摘要 The microstructure and mechanical properties of A1-4.5wt% Cu Mloy reinforced with different volume fractions （1.5vo1%, 3vo1%, and 5vo1%） of alumina nanoparticles, fabricated using stir casting method, were investigated. CMculated amounts of alumina nanoparticles （about ~50 nm in size） were ball-milled with aluminum powders in a planetary ball mill for 5 h, and then the packets of milled powders were incorporated into molten Al-4.5wt% Cu alloy. Microstructural studies of the nanocomposites reveal a uniform distribution of alumina nanoparticles in the A1-4.5wt% Cu matrix. The results indicate an outstanding improvement in compression strength and hardness due to the effect of nanoparticle addition. The aging behavior of the composite is also evaluated, indicating that the addition of alumina nanoparticles can accelerate the aging process of the Mloy, resulting in higher peak hardness values. The microstructure and mechanical properties of A1-4.5wt% Cu Mloy reinforced with different volume fractions （1.5vo1%, 3vo1%, and 5vo1%） of alumina nanoparticles, fabricated using stir casting method, were investigated. CMculated amounts of alumina nanoparticles （about ~50 nm in size） were ball-milled with aluminum powders in a planetary ball mill for 5 h, and then the packets of milled powders were incorporated into molten Al-4.5wt% Cu alloy. Microstructural studies of the nanocomposites reveal a uniform distribution of alumina nanoparticles in the A1-4.5wt% Cu matrix. The results indicate an outstanding improvement in compression strength and hardness due to the effect of nanoparticle addition. The aging behavior of the composite is also evaluated, indicating that the addition of alumina nanoparticles can accelerate the aging process of the Mloy, resulting in higher peak hardness values.

作者 N.Valibeygloo R.Azari Khosroshahi R.Taherzadeh Mousavian

机构地区 Faculty of Materials Engineering Department of Metallurgy

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2013年第10期978-985,共8页 矿物冶金与材料学报（英文版）

关键词 metallic matrix composites nanocomposites aluminum ALUMINA nanoparticles CASTING mechanical proper-ties microstructure metallic matrix composites nanocomposites aluminum alumina nanoparticles casting mechanical proper-ties microstructure

分类号 TG291 [金属学及工艺—铸造]

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参考文献1

1S.AMIRKHANLOU,B.NIROUMAND.Synthesis and characterization of 356-SiC_p composites by stir casting and compocasting methods[J].中国有色金属学会会刊：英文版,2010,20(S3):788-793. 被引量：20

二级参考文献12

1Olusegun J. Ilegbusi,Jijin Yang.Porosity nucleation in metal-matrix composites[J]. Metallurgical and Materials Transactions A . 2000 (8)
2S. Ray.Synthesis of cast metal matrix particulate composites[J]. Journal of Materials Science . 1993 (20)
3TZAMTZIS S,BAREKAR N S,HARI N,PATEL J,DHINDAW B K,FAN Z.Processing of advanced Al/SiC particulate metal matrixcomposites under intensive shearing—A novel rheo-process. Composites Part A Applied Science and Manufacturing . 2009
4ADEL M H,,ALRASHDAN A,MOHAMMED T.Wear behavior of Al-Mg-Cu-based composites containing SiC particles. Tribology International . 2009
5GHAHREMANIAN M,NIROUMAND B.Compocasting of an Al-Si-SiCp composite using powder injection method. Solid State Phenomena . 2008
6GOSH P K,RAY S.Influence of process Parameters on the porosity content in Al (Mg)-Al2O3 cast particulate composite produced by vortex Method. Journal of Material Transactions A . 2003
7Balasivanandha Prabu S,,Karunamoorthy L,Kathiresan S,et al.Influence of stirring speed and stirring time on distribution of particles in cast metal matrix composite. Journal of Materials . 2006
8Rajan T P D,et al.Fabrication and characterisation of Al- 7Si-0.35Mg/fly ash metal matrix composites processed by different stir casting routes. Composites Science and Technology . 2007
9Hatch J E.Aluminum-Properties and Physical Metallurgy. . 1984
10V.S. Aigbodion,S.B. Hassan.Effects of silicon carbide reinforcement on microstructure and properties of cast Al–Si–Fe/SiC particulate composites. Journal of Materials Science . 2007

共引文献19

1Renfa Ding,Yutao Zhao,Ran Tao,Zhihao Zhao,Liang Liang,Jili Wu,Xizhou Kai,Min Wang.Effects of Sr addition on the microstructures and mechanical properties of in-situ ZrB2 nanoparticles reinforced AlSi9Cu3 composites[J].Progress in Natural Science:Materials International,2019,29(5):561-568.
2代书华,刘瑞亮,冯德.含铌铝基复合材料制备参数优化设计[J].轻合金加工技术,2013,41(2):57-61.
3H.R.EZATPOUR1,M.TORABIPARIZI,S.A.SAJJADI.搅拌铸造制备Al/Al_2O_3复合材料经挤压后的组织与力学性能(英文)[J].Transactions of Nonferrous Metals Society of China,2013,23(5):1262-1268. 被引量：1
4T. RAJMOHAN,K. PALANIKUMAR,S. RANGANATHAN.混合铝基复合材料的力学性能和耐磨性(英文)[J].Transactions of Nonferrous Metals Society of China,2013,23(9):2509-2517. 被引量：3
5吴星平,石锦罡,吴昊,陈名海,刘宁,李清文.真空搅拌铸造制备SiC颗粒增强ADC12铝基复合材料及其力学性能表征[J].材料工程,2014,42(1):6-11. 被引量：16
6J.JEBEEN MOSES,I.DINAHARAN,S.JOSEPH SEKHAR.搅拌铸造工艺参数对AA6061/TiC铝基复合材料抗拉强度影响的预测（英文）[J].Transactions of Nonferrous Metals Society of China,2016,26(6):1498-1511. 被引量：3
7Biljana BOBIC,Jelena BAJAT,Ilija BOBIC,Bore JEGDIC.氯化钠溶液中腐蚀对复合铸造ZA27/SiC_p复合材料表观和显微组织的影响（英文）[J].Transactions of Nonferrous Metals Society of China,2016,26(6):1512-1521. 被引量：1
8潘利科,韩建民,张颖骁,杨智勇,李志强,李卫京.高含量SiC_p/A356复合材料衍生材料的组织与性能[J].中国有色金属学报,2016,26(10):2078-2085. 被引量：7
9张桢林,张志峰,徐骏,王亚宝,张浩,毛卫民.双级机械搅拌铸造SiC_p/A357复合材料的工艺及性能[J].特种铸造及有色合金,2017,37(6):598-601. 被引量：1
10王春伟,袁战伟,张晓峰,王瑜.SiC颗粒增强铝基复合材料制备技术研究进展[J].热加工工艺,2017,46(12):6-9. 被引量：8

同被引文献20

1CHENG Jian-yi WANG Ming-pu CAO Jian-guo ZHAO Xue-long GUO Ming-xing.Influence of nano-scaled dispersed second phase on substructure of deformed dispersion strengthened copper alloy[J].Journal of Central South University of Technology,2005,12(z1):50-53. 被引量：2
2胡岳华,徐竞,邱冠周,王淀佐.细粒浮选体系中颗粒间静电及范德华相互作用[J].有色矿冶,1994,10(2):16-21. 被引量：8
3储双杰,吴人洁.金属基复合材料新型制造技术[J].稀有金属材料与工程,1995,24(6):1-9. 被引量：13
4S.AMIRKHANLOU,B.NIROUMAND.Synthesis and characterization of 356-SiC_p composites by stir casting and compocasting methods[J].中国有色金属学会会刊：英文版,2010,20(S3):788-793. 被引量：20
5樊建中,桑吉梅,张永忠,张奎,张少明,石力开.铝基复合材料增强体颗粒分布均匀性的研究[J].金属学报,1998,34(11):1199-1204. 被引量：45
6张国政,吕栋腾,吴治明.碳化硅颗粒增强铝基复合材料的制备及应用的研究[J].新技术新工艺,2010(11):60-62. 被引量：15
7燕鹏,林晨光.Microstructural Features and Properties of High-hardness and Heat-resistant Dispersion Strengthened Copper by Reaction Milling[J].Journal of Wuhan University of Technology(Materials Science),2011,26(5):902-907. 被引量：2
8涂文斌,柯黎明,徐卫平.搅拌摩擦加工制备MWCNTs/Al复合材料显微结构及硬度[J].复合材料学报,2011,28(6):142-147. 被引量：23
9Jun-hui Nie,Cheng-chang Jia,XianJia,Yi Li,Ya-feng Zhang,Xue-bing Liang.Fabrication and thermal conductivity of copper matrix composites reinforced by tungsten-coated carbon nanotubes[J].International Journal of Minerals,Metallurgy and Materials,2012,19(5):446-452. 被引量：6
10阳丽,孔令江.微纳米球形颗粒之间的毛细力研究[J].广西师范大学学报（自然科学版）,2012,30(1):1-4. 被引量：8

引证文献7

1Xue-hui Zhang,Xiao-xian Li.Characteristics of alumina particles in dispersion-strengthened copper alloys[J].International Journal of Minerals,Metallurgy and Materials,2014,21(11):1115-1119. 被引量：3
2Reza Taherzadeh Mousavian,Rasoul Azari Khosroshahi,Sasan Yazdani,Dermot Brabazon.Manufacturing of cast A356 matrix composite reinforced with nano- to micrometer-sized SiC particles[J].Rare Metals,2017,36(1):46-54. 被引量：3
3Akbar Heidarzadeh,Reza Taherzadeh Mousavian,Rasoul Azari Khosroshahi,Yalda A.Afkham,Hesam Pouraliakbar.Empirical model to predict mass gain of cobalt electroless deposition on ceramic particles using response surface methodology[J].Rare Metals,2017,36(3):209-219. 被引量：3
4Shahin Soltani,Rasoul Azari Khosroshahi,Reza Taherzadeh Mousavian,Zheng-Yi Jiang,Alireza Fadavi Boostani,Dermot Brabazon.Stir casting process for manufacture of Al-SiC composites[J].Rare Metals,2017,36(7):581-590. 被引量：7
5王坤,蒋日鹏,张立华,李瑞卿,李晓谦.超声外场对SiC_p/7085复合材料颗粒分布与硬度的影响[J].中南大学学报（自然科学版）,2018,49(3):529-535. 被引量：1
6Siavash Imanian Ghazanlou,Beitallah Eghbali.Fabrication and characterization of GNPs and CNTs reinforced Al7075 matrix composites through the stir casting process[J].International Journal of Minerals,Metallurgy and Materials,2021,28(7):1204-1214. 被引量：4
7刘升,方子皓,邹佩,彭田.机械搅拌和超声处理对纳米SiC_(p)/Zn-Al复合材料显微组织与摩擦学性能的影响[J].机械工程材料,2022,46(7):57-63.

二级引证文献21

1张雪辉,章标,朱太恒,王成,余音宏,陈颢.W-4.9Ni-2.1Fe高比重合金的摩擦磨损行为[J].有色金属科学与工程,2016,7(4):33-39. 被引量：2
2王鹏云,冯岩,陈会东,雷竹芳,王永朝.Al_2O_3弥散强化铜棒材高温力学性能与软化行为研究[J].材料开发与应用,2017,32(3):46-53. 被引量：4
3张雪辉,魏星,刘美霞,杨凯,祝绳健,蒋苗.Al_2O_3/Cu复合材料的高温变形行为[J].复合材料学报,2017,34(8):1825-1832. 被引量：4
4李泽华,冯志军,石飞,苏鑫,王伟.机械搅拌制备SiC_p/AlSi7Mg2复合材料性能研究[J].铸造,2018,67(2):125-130. 被引量：3
5Reza Vatankhah Barenji.Effect of reinforcement amount, mold temperature, superheat, and mold thickness on fluidity of in-situ Al-Mg_2Si composites[J].China Foundry,2018,15(1):66-74. 被引量：2
6张百年,张进生,鞠军伟,陈晓涛.圆锯片淬火过程中的应力分析及工艺参数优化[J].金刚石与磨料磨具工程,2018,38(3):36-41. 被引量：1
7Subramanya R.PRABHU,Arun K.SHETTIGAR,Mervin A.HERBERT,Shrikantha S.RAO.搅拌铸造金红石增强AA6061基复合材料的显微组织和力学性能（英文）[J].Transactions of Nonferrous Metals Society of China,2019,29(11):2229-2236. 被引量：2
8Shang-Yang Feng,Qiu-Lin Li,Wei Liu,Guo-Gang Shu,Xin Wang.Microstructure and mechanical properties of Al-B4C composite at elevated temperature strengthened with in situ Al2O3 network[J].Rare Metals,2020,39(6):671-679. 被引量：5
9Pu-Bo Li,Wan-Ting Tan,Mang-Mang Gao,Kuan-Guan Liu.Semisolid microstructural evolution of (CNTs+Sip)/AZ91D powder compacts prepared from powders by cold pressing and remelting[J].Rare Metals,2020,39(6):733-742. 被引量：4
10Ji-Peng Chen,Lin Gu,Guo-Jian He.A review on conventional and nonconventional machining of SiC particle-reinforced aluminium matrix composites[J].Advances in Manufacturing,2020,8(3):279-315. 被引量：2

1Yu,Fen,CHANG,Yuan,Bo,LIN,等.A Novel Heat-resisting Surfactant for the Modification of Alumina Nanoparticles[J].Chinese Chemical Letters,2003,14(1):104-107.
2石建新,韦永德,侯仰龙.Investigation on Law of Intercalation of Metal-Ammonia into Graphite by a Microstructural Parameter Method[J].Journal of Harbin Institute of Technology(New Series),1998,5(4):90-93.
3KAYA Hasan,ENGÍN Sevda,AKER Aynur,BüYüK Ugur,ÇADIRLI Emin.Microstructural,Mechanical,Electrical,and Thermal Properties of the Bi-Sn-Ag Ternary Eutectic Alloy[J].Journal of Wuhan University of Technology(Materials Science),2017,32(1):147-154. 被引量：2
4Chen Feng(Instrument Analysis and Testing Center, Central South University ofTechnology, Changsha 410083, China).ASYMPTOTIC ANALYSIS OF WEAKLY NONLINEAR AND FORCED OSCILLATIONS[J].Journal of Central South University,1996,8(2):88-92.
5吴承武.REICHHOLD China预祝第十六届中国国际复合材料展览会(CCExpo2010)圆满成功[J].纤维复合材料,2010,27(2):5-5.
6任刚,许如清,韩立,陈皓明.利用扫描电镜和原子力显微镜测量纳米微孔阳极氧化铝膜[J].物理,2003,32(1):36-41. 被引量：6
7X.M.Wang,X.J.Wang,X.S.Hu,K.Wu,M.Y.Zheng.Processing, Microstructure and Mechanical Properties of Ti6Al4V Particles-Reinforced Mg Matrix Composites[J].Acta Metallurgica Sinica(English Letters),2016,29(10):940-950. 被引量：5
8李慧剑,付宝连,谭文峰.RECIPROCAL THEOREM METHOD FOR THE FORCED VIBRATIONOF ELASTIC THICK RECTANGULAR PLATES[J].Applied Mathematics and Mechanics(English Edition),1998,19(2):191-205.
9徐加初,刘人怀.SHEAR EFFECTS ON LARGE AMPLITUDE FORCED VIBRATIONOF SYMMETRICALLY LAMINATED RECTILINEARLYORTHOTROPIC CIRCULAR PLATES[J].Applied Mathematics and Mechanics(English Edition),1998,19(2):111-119.
10田晓华,隋解和,张欣,冯雪,蔡伟.Microstructural,phase transformation and magnetic properties of Ni-Mn-Ga alloy fabricated by spark plasma sintering[J].Chinese Physics B,2011,20(4):476-479.

International Journal of Minerals,Metallurgy and Materials

2013年第10期

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