Effects of the rotary embossing process on mechanical properties in aluminum alloy 1050 sheet
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Date
2012-04
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Journal Title
Journal ISSN
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Publisher
Korean Institute of Metals Materials
Abstract
Heat shields are designed to protect components from heat damage, and one method of producing heat shields is with the embossing process. The embossing process is a sheet metal-forming method that is utilised in strengthening sheet metals. This method also increases the surface area useful for heat transfer. In this paper, the effect of this technique on the yield load, tensile load, bending strength and buckling strength for different sheet thicknesses of aluminium alloy 1050 sheets is investigated. Furthermore, the efficacy of this forming technique as a method for strengthening the sheets is discussed.
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Keywords
Materials science, Metallurgy & metallurgical engineering, Embossing, Mechanical properties, Work hardening, Deformation, Buckling, Uniform pressure, Deep drawability, Tool temperature, Springback, Bending strength, Buckling, Deformation, Heat shielding, Heat transfer, Mechanical properties, Metal forming, Sheet metal, Strain hardening, Strengthening (metal), Buckling strength, Embossing, Forming techniques, Heat damage, Surface area, Tensile loads, Yield load, Aluminum alloys
Citation
Güler, H. ve Özcan, R. (2012). "Effects of the rotary embossing process on mechanical properties in aluminum alloy 1050 sheet". Metals and Materials International, 18(2), 225-230.