Effect of Reinforcement and Copper Chill on LM13/ZrSiO_(4)/C Hybrid Metal Matrix Composites(HMMCS)-An Experimental and Statistical Analysis
Effect of Reinforcement and Copper Chill on LM13/ZrSiO4/C Hybrid Metal Matrix Composites(HMMCS)——An Experimental and Statistical Analysis作者机构:Dept.of Mechanical EngineeringDayananda Sagar UniversityBengaluru 560068India Dept.of Mechanical EngineeringJyothy Institute of TechnologyBengaluru 560068India Atal Incubation CenterJyothy FoundationBengaluru 560068India
出 版 物:《China's Refractories》 (中国耐火材料(英文版))
年 卷 期:2021年第30卷第4期
页 面:12-18页
学科分类:08[工学] 0805[工学-材料科学与工程(可授工学、理学学位)] 080502[工学-材料学]
主 题:dual reinforcement copper chill stir casting tensile strength1
摘 要:Composites place a vital role in the applications of material science,***,automobile,marine,*** reinforcement composites are a trending research area in the field of metal matrix *** this research article dual reinforcement,*** silicate(ZrSiO4)and carbon,is added to molten LM13 using the stir casting process in terms of(as cast),(3+3)mass%,(6+3)mass%,(9+3)mass%and(12+3)mass%respectively,using copper as a chill kept toward one *** tensile,the hardness,and the microstructure of the composite specimens at the chill end and non chill end are *** results are compared with analytical results and *** is found an increase in reinforcement and chilling effect enhances the properties of the *** ultimate tensile strength(UTS)and the hardness increase gradually with the increase in ZrSiO4 *** maximum UTS,the hardness and the signal to noise ratio(S/N ratio)for mechanical characterizations are evaluated using Taguchi *** is found that 9 mass%of ZrSiO4 yields better results than the other *** are tabulated and compared using statistical *** studies reveal the uniform distribution of matrix and reinforcements with negligible agglomeration.