Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys
Salem, M. (2021). Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys. EKB Journal Management System, 43(1), 16-36. doi: 10.21608/ejs.2021.66610.1003
Mahmoud Salem. "Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys". EKB Journal Management System, 43, 1, 2021, 16-36. doi: 10.21608/ejs.2021.66610.1003
Salem, M. (2021). 'Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys', EKB Journal Management System, 43(1), pp. 16-36. doi: 10.21608/ejs.2021.66610.1003
Salem, M. Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys. EKB Journal Management System, 2021; 43(1): 16-36. doi: 10.21608/ejs.2021.66610.1003

Effect of Zinc on the Tensile Properties, Microstructure and characteristics in Aluminum Alloys

Egyptian Journal of Solids
Article 2, Volume 43, Issue 1, 2021, Page 16-36  XML PDF (2.13 MB)
Document Type: Original Article
DOI: 10.21608/ejs.2021.66610.1003
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Author
Mahmoud Salem email
Physics Department faculty of science New valley university
Abstract
The existing work characterizes the consequence of Zinc increase of the precise structure, thermal and mechanical characteristic of Aluminum by supplement 60% Zinc and 10 % Zinc to fine Aluminum alloy to gained Zinc-40Aluminium and Zinc-90Aluminium. The study presented that the superplasticity of Zinc-90Aluminium is reduced compared with Zinc-40Aluminium. The strain rate (SR; .) and temperature (T) are having extremely influence on tensile figure. Too (SR; .) and (T) donate excellent Young's modulus (Y), ultimate tensile stress (UTS), yield stress (σy), and fracture strength (breaking strength) σf associated with the exponent rule σ =Cε•m; where C is a fixed number and m is the strain average sensitivity index; while strain rate and temperature decrease fracture strain (εf ). The tensile figures are (T) and (SR;  .) dependence. Stress-strain characteristics of Zinc-40Aluminium and Zinc-90Aluminium alloys were investigated at various strain rates (SR, ε•) from 5.0×10-4 to 6.4×10-3 s-1 and deformation temperatures from 298 to 393 K. In case of Zinc-90Aluminium; it has higher ultimate tensile stress (UTS) i.e. Zinc-40Aluminium is more in elongation (ductility) than Zinc-90Aluminium. A common decrease of strain εT with (SR;  .) is characterized by the equation εT =Aexp(-λε•m); A and λ are constant. The results depend on variation precise structure. The Zinc supplement from 10% to40% refines the precise structure, enhancing the mechanical properties, and form increase the ductility.
Keywords
Aluminium; Activation energies; Strain; Stress; Zinc
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