Magnesium and magnesium alloys are promising materials for light weight and high strength applications. In order to obtain homogeneous and high quality products in powder compaction and powder forging processes, it is very important to control density and density distributions in powder compacts. In this study, a model for densification of metallic powder is proposed for pure magnesium. The mode] considers the effect of powder characteristics using a pressure-dependent critical density yield criterion. Also with the new model, it was possible to obtain reasonable physical properties of pure magnesium powder using cold iso-state pressing. The proposed densification model was implemented into the finite element method code. The finite element analysis was applied to simulating die compaction of pure magnesium powders in order to investigate the density and effective strain distributions at room temperature.

• 윤승채 | Yoon Seung-Chae
• 곽은정 | Kwak Eun-Jeong
• 최원형 | Choi Won-Hyoung
• 김형근 | Kim Hyoung-Kun
• 김택수 | Kim Taek-Soo
• 김형섭 | Kim Hyoung-Seop