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Materials Science and Technology Volume 12, 1996 - Issue 6
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Articles

Dry sliding wear behaviour of Al2O3–Al composites produced by centrifugal force infiltration

J.-Q. Jiang
,
R.-S. Tan
&
A.-B. Ma
Pages 483-488 | Published online: 02 Dec 2013

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H. Ramezanalizadeh, M. Emamy & M. Shokouhimehr. (2016) Wear Behavior of Al/CMA-Type Al3Mg2 Nanocomposites Fabricated by Mechanical Milling and Hot Extrusion. Tribology Transactions 59:2, pages 219-228.
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Articles from other publishers (28)

S. Basavarajappa, S. Manjunath Yadav, Chakrasali Chandrakumar & K. V. Arun. (2022) Investigation of the abrasive wear behavior of an aluminum alloy and its Al 2 O 3 particle reinforced composite by statistical analysis . Materials Testing 58:3, pages 231-237.
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Verma R, P. Vijaya KumarDr.Dr., Meghashree K A & Puneeth P. (2020) Study of Corrosion Rate on Graphene and S-Glass Reinforced Al-6061 Metal Matrix Composites. International Journal of Scientific Research in Science, Engineering and Technology, pages 433-441.
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Verma R., P. Vijaya KumarDr.Dr., Meghashree K. A. & Puneeth P.. (2020) Study of Wear Rate On Graphene and S-Glass Reinforced Al-6061 Metal Matrix Composites. International Journal of Scientific Research in Science and Technology, pages 226-234.
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Reza Derakhshandeh-Haghighi & Seyed Ahmad Jenabali Jahromi. (2016) The Effect of Multi-pass Equal-Channel Angular Pressing (ECAP) for Consolidation of Aluminum-Nano Alumina Composite Powder on Wear Resistance. Journal of Materials Engineering and Performance 25:2, pages 687-696.
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Jaswinder Singh & Amit Chauhan. (2016) Overview of wear performance of aluminium matrix composites reinforced with ceramic materials under the influence of controllable variables. Ceramics International 42:1, pages 56-81.
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Aykut Canakci, Sukru Ozsahin & Temel Varol. (2014) Prediction of Effect of Reinforcement Size and Volume Fraction on the Abrasive Wear Behavior of AA2014/B4Cp MMCs Using Artificial Neural Network. Arabian Journal for Science and Engineering 39:8, pages 6351-6361.
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A. Alizadeh & E. Taheri-Nassaj. (2011) Wear Behavior of Nanostructured Al and Al–B4C Nanocomposites Produced by Mechanical Milling and Hot Extrusion. Tribology Letters 44:1, pages 59-66.
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R.N. Rao & S. Das. (2011) Effect of applied pressure on the tribological behaviour of SiCp reinforced AA2024 alloy. Tribology International 44:4, pages 454-462.
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G. B. Veeresh Kumar, C. S. P. Rao & N. Selvaraj. (2011) Mechanical and Tribological Behavior of Particulate Reinforced Aluminum Metal Matrix Composites – a review. Journal of Minerals and Materials Characterization and Engineering 10:01, pages 59-91.
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M. Bayhan & K. Önel. (2010) Optimization of reinforcement content and sliding distance for AlSi7Mg/SiCp composites using response surface methodology. Materials & Design 31:6, pages 3015-3022.
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R.N. Rao & S. Das. (2010) Effect of matrix alloy and influence of SiC particle on the sliding wear characteristics of aluminium alloy composites. Materials & Design 31:3, pages 1200-1207.
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R.N. Rao, S. Das, D.P. Mondal & G. Dixit. (2010) RETRACTED: Effect of heat treatment on the sliding wear behaviour of aluminium alloy (Al–Zn–Mg) hard particle composite. Tribology International 43:1-2, pages 330-339.
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R.N. Rao, S. Das, D.P. Mondal & G. Dixit. (2009) RETRACTED: Dry sliding wear behaviour of cast high strength aluminium alloy (Al–Zn–Mg) and hard particle composites. Wear 267:9-10, pages 1688-1695.
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A.K. Mondal & S. Kumar. (2009) Dry sliding wear behaviour of magnesium alloy based hybrid composites in the longitudinal direction. Wear 267:1-4, pages 458-466.
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Ashok Kumar Mondal, B.S.S. Chandra Rao & Subodh Kumar. (2007) Wear behaviour of AE42+20% saffil Mg-MMC. Tribology International 40:2, pages 290-296.
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Debdas Roy, Bikramjit Basu, Amitava Basu Mallick, B.V. Manoj Kumar & Sumit Ghosh. (2006) Understanding the unlubricated friction and wear behavior of Fe-aluminide reinforced Al-based in-situ metal–matrix composite. Composites Part A: Applied Science and Manufacturing 37:9, pages 1464-1472.
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S. Mohan & S. Srivastava. (2006) Surface behaviour of as-Cast Al–Fe intermetallic composites. Tribology Letters 22:1, pages 45-51.
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M. Kök. (2006) Abrasive wear of Al2O3 particle reinforced 2024 aluminium alloy composites fabricated by vortex method. Composites Part A: Applied Science and Manufacturing 37:3, pages 457-464.
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D.P. Mondal, S. Das, R.N. Rao & M. Singh. (2005) Effect of SiC addition and running-in-wear on the sliding wear behaviour of Al–Zn–Mg aluminium alloy. Materials Science and Engineering: A 402:1-2, pages 307-319.
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Debdas Roy, Bikramjit Basu & Amitava Basu Mallick. (2005) Tribological properties of Ti-aluminide reinforced Al-based in situ metal matrix composite. Intermetallics 13:7, pages 733-740.
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T. Miyajima & Y. Iwai. (2003) Effects of reinforcements on sliding wear behavior of aluminum matrix composites. Wear 255:1-6, pages 606-616.
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Y Sahin. (2003) Wear behaviour of aluminium alloy and its composites reinforced by SiC particles using statistical analysis. Materials & Design 24:2, pages 95-103.
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S.C Tjong & K.C Lau. (2000) Tribological behaviour of SiC particle-reinforced copper matrix composites. Materials Letters 43:5-6, pages 274-280.
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S.C Tjong & K.C Lau. (2000) Abrasive wear behavior of TiB2 particle-reinforced copper matrix composites. Materials Science and Engineering: A 282:1-2, pages 183-186.
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G.H Cao, S.Q Wu, J.M Liu & Z.G Liu. (1999) Wear-resistance mechanism of an Al–12Si alloy reinforced with aluminosilicate short fibers. Tribology International 32:12, pages 721-724.
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S.C Tjong & K.C Lau. (1999) Sliding wear of stainless steel matrix composite reinforced with TiB2 particles. Materials Letters 41:4, pages 153-158.
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Y Sahin. (1998) Wear behaviour of planar-random fibre-reinforced metal matrix composites. Wear 223:1-2, pages 173-183.
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J.P. Tu, L. Meng & M.S. Liu. (1998) Friction and wear behavior of CuFe3Al powder metallurgical composites in dry sliding. Wear 220:1, pages 72-79.
Crossref

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