A Comparative Study of Microstructure, Mechanical and Tribology Properties of Cast in-situ Particulate: Al(Mg,Mn)-Al2O3(MnO2) and Al(Mg,Ti)-Al2O3(TiO2) Composites | ||
Al-Rafidain Engineering Journal (AREJ) | ||
Article 15, Volume 27, Issue 1, March 2022, Pages 139-144 PDF (620.01 K) | ||
Document Type: Research Paper | ||
DOI: 10.33899/rengj.2022.132662.1152 | ||
Authors | ||
Abdulhaqq A. Hamid* 1; S. C. Jain2; P. K. Ghosh2; Subrata Ray3 | ||
1College of Engineering, University of Mosul | ||
2Mechanical & Industrial Engineering Department, Indian Institute of Technology-Roorkee, Roorkee (Uttaranchal)-247 667 - India | ||
3Metallurgical & Materials Engineering Department, Indian Institute of Technology-Roorkee, Roorkee (Uttaranchal)-247 667 - India | ||
Abstract | ||
In-situ composites are a class of composite materials in which the reinforcing phases (such as Al2O3, TiB2,TiC, etc.) are generated within the matrix material by some chemical reaction during the composite processing. This research paper compares the microstructure, mechanical and tribological properties of the resulting cast in-situ Al(Mg,Mn)-Al2O3(MnO2) and Al(Mg,Ti)-Al2O3(TiO2) composites. It is generally observed that intermetallic phase Mn(Al1-x Fex)6 in the cast in-situ Al(Mg,Mn)-Al2O3(MnO2) composite is relatively finer in size and is sometimes blocky in type compared to Ti(Al1-x Fex)3 formed in cast in-situ Al(Mg,Ti)-Al2O3(TiO2) composite. This has been attributed to a difference in heterogeneous nucleation behavior of the alumina substrates during the phases of intermetallic formation. Superior mechanical properties, represented by ultimate tensile stress, yield stress and percentage elongation, are obtained in the cast in-situ Al(Mg,Mn)-Al2O3(MnO2) composite and compared to those obtained in cast in-situ Al(Mg,Ti)-Al2O3(TiO2) composite.It is observed that the wear rate in cast in-situ Al(Mg,Mn)-Al2O3(MnO2) composite is considerably lower compared to that of the cast in-situ Al(Mg,Ti)-Al2O3(TiO2) composite, particularly at higher normal load of 39.2 N, in spite of a relatively higher porosity content and slightly lower hardness in cast in-situ Al(Mg,Mn)-Al2O3(MnO2) composite. | ||
Keywords | ||
In-Situ Composites; Microstructure; Mechanical properties; Dry Sliding | ||
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