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Homomorphism and anti homomorphism of cubic ideals of near-rings
V. Chinnadurai,K. Lenin muthu kumaran 원광대학교 기초자연과학연구소 2017 ANNALS OF FUZZY MATHEMATICS AND INFORMATICS Vol.13 No.4
In this paper, we discuss some characterizations of cubic ideals of near-rings with examples. Also investigate cubic ideals of near-rings using homomorphism and anti homomorphism.
R. Sivabalan,K. R. Thangadurai,K. Lenin 한양대학교 세라믹연구소 2021 Journal of Ceramic Processing Research Vol.22 No.6
The aim of this research study is the investigating the properties of a hybrid Magnesium (Mg) Metal Matrix Composite(MMC) fabricated using integrated squeeze cum stir casting setup. The challenges of this liquid metallurgy processing routeare non-uniform distribution and agglomeration of reinforcement particles; this could cause poor quality in composites, whichmight result in ruining the value of the properties and performance of the fabricated composites. The primary and secondaryreinforcements investigated on this study are Silicon Nitride (Si3N4) and Aluminium Oxide (Al2O3) respectively. Magnesiumalloy (ZE41A- mainly based on zinc, zirconium and cerium) was taken as base metal with micron sized Silicon Nitride (Si3N4)as primary reinforcement. Aluminum Oxide(Al2O3) is employed as secondary reinforcement to fabricate hybrid magnesiumMMC of different weight fractions; (a) Pure Mg (ZE41A), (b) 1 wt% of Si3N4 and 1wt% of Al2O3, (c) 2 wt% of Si3N4 and2 wt% of Al2O3, (d) 3 wt% of Si3N4 and 3 wt% of Al2O3 and (e) 4 wt% of Si3N4 and 4 wt% of Al2O3. The fabricated compositesare analyzed for metallurgical, mechanical characterization and tribological behavior by optical microscopic analysis, SEMimaging, and EDAX analyses. The maximum ultimate tensile strength observed is 201.5 MP, a 11.93% increase than pure MgZE41A base alloy.