![]() The experimental and simulation results were found to be in good agreement. A 3D Finite element model was developed for the simulation of circular cup deep drawing and tested for different temperatures ranging from room temperature to 300 ☌ and it was found that the limiting drawing ratio (LDR) increased significantly with any increase in temperature. Hence a warm formability study of AZ31 was performed and tested by experimental and simulation methods and resulted in superior formability at elevated temperatures in both cases. It is a well-known and recognised fact that fracturing and wrinkling during the deep drawing process can be minimised or eliminated by selecting an appropriate warm-forming temperature of the magnesium, as the formability of magnesium increases considerably as the temperature increases. It will keep track of both the bibliographic information and the associated files or web links for you. This is because magnesium is being considered as a promising alternative for high strength steel and aluminium within many applications because of its low density and high specific strength. Use BibDesk to edit and manage your bibliography. The presented work aimed at studying the deep drawing process of a magnesium alloy sheet at elevated temperatures. ![]() Volume 10 | Number 3 | September 2015 | pp 153–161Įxperimental and simulation study on the warm deep drawing of AZ31 alloy The correct citation will automatically appear.Archives > Volume 10 | Number 3 | September 2015 > pp 153–161Īdvances in Production Engineering & Management The first one is that once a PDF is added to BibDesk, the app can find it even if the document is moved in the Finder.
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