Effect of Alloying Elements on Hardness and Electrical Conductivity of CU Nanocomposites Prepared by Mechanical Alloying
Publish Year: 1399
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_IJMSEI-18-1_001
تاریخ نمایه سازی: 24 بهمن 1401
Abstract:
Cu-based alloys have a wide range of applications in the electronics industry, communications industry, welding industries, etc. Regarding the type and percentage of the second phase, changing in the alloying elements has a significant effect on the mechanical and electrical properties of copper composites. The aim of the present work is to synthesize, investigate, and compare the micro-structure, micro-hardness, and electrical properties of different Cu-based nanocomposites. For this purpose, Cu-Al, Cu-Al۲O۳, Cu-Cr, and Cu-Ti were fabricated via ball milling of copper with ۱, ۳, and ۶ weight percentages. The vial speed was ۳۵۰ rpm and the ball-to-powder weight ratio was kept at ۱۵:۱. The milling process was performed at different times in Argon. Next, the prepared composites were studied by scanning electron microscopy (SEM), X-ray diffraction (XRD), and dynamic light scattering (DLS). Based on XRD patterns, crystallite size, lattice strain, and lattice constant were calculated by Rietveld refinement using Maud software. The results show a decrease of crystallite size, and an increase of the internal strain and lattice constant by rising the alloying elements in all composites. Then, the produced powders compressed via the cold press and annealed at ۶۵۰˚C. Finally; the micro-hardness and the electrical resistance of the manufactured tablets were measured. The results of these analyses show that micro-hardness is increased by enhancement of the reinforcement material, due to the rising of the work hardening. Cu-۶wt%Ti with ۳۱۲ Vickers and Cu-۱wt%Al۲O۳ with ۷۸ Vickers had the highest and lowest micro-hardness, respectively. Moreover, the results of the electrical resistance indicate a dramatic rise in the electrical resistance by increasing the amount of alloying material, which Cu-۱wt%Al with ۰.۲۶ Ω had the highest electrical conductivity.
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Authors
Reza Mirahmadi Babaheydari
Shahid Bahonar University of kerman
Seyed Oveis Mirabootalebi
Shahid Bahonar University of Kerman
Gholam Hosein Akbari Fakhrabadi
Shahid Bahonar University of Kerman
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