1. Effect of sintering temperature on the mechanical properties of vacuum sintered Co-(Zn)-Ni-Al alloys
- Author
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S. Vijay Joseph, G. Johnsy Arputhavalli, Santhanam Agilan, and S. Jebasingh
- Subjects
Materials science ,Alloy ,chemistry.chemical_element ,Sintering ,02 engineering and technology ,Zinc ,engineering.material ,mechanical properties ,lcsh:Chemical technology ,Indentation hardness ,vacuum sintering ,Powder metallurgy ,Materials Chemistry ,lcsh:TP1-1185 ,Porosity ,020502 materials ,Metallurgy ,Metals and Alloys ,Shape-memory alloy ,Condensed Matter Physics ,powder metallurgy ,0205 materials engineering ,chemistry ,Ferromagnetism ,Ceramics and Composites ,engineering ,cobalt nickel aluminium alloys - Abstract
In the present study, the wear resistance behavior and the microhardness of the Co38Ni35Al27 and Co35Zn10Ni32Al23 ferromagnetic shape memory alloys (FSMAs) were investigated. The alloy samples were prepared by powder metallurgy method along with the vacuum sintering technique. The major aim is to prepare an alloy with high wear resistance having remarkable microhardness suitable for the sustainable shape memory alloy. The wear test report shows that the wear resistance is high for the sample sintered at 673 K and it gradually reduces when the sintering temperature decreases. The result also shows that the inclusion of zinc in the alloy increases the wear rate. The maximum hardness value of 126 HV was observed in Co38Ni35Al27 sample sintered at 673 K for 8 hrs because of its minimal porosity.
- Published
- 2020