pISSN : 1598-706X / eISSN : 2288-8381
한국주조공학회지 (35권4호 80-87)
Effect of Casting Thickness and Plunger Velocity on Porosity in Al Plate Diecasting
Al 박육 다이캐스팅 주물에서 기포결함에 미치는 주물두께, 사출속도의 영향
Ho-Jeong Kang, Jin-Young Park*, Eok-Soo Kim*, Kyung-Mox Cho and Ik-Min Park†
Department of Material Science and Engineering, Pusan National University, Busan 46241, Korea, *Ulsan Regional Division, Korea Institute of Industrial Technology, Ulsan 44413, Korea
The Al die casting process has been widely used in the manufacturing of automotive parts when the process requires near-net shape casting and a high productive rate. However, porosity arises in the casting process, and this hampers the wider use of this method for the creation of high-durability automotive components. The porosity can be controlled by the shot condition, but, it is critical to set the shot condition in the sleeve, and it remains difficult to optimize the shot condition to avoid air entrapment efficiently. In this study, the 4.5 mm, 2.0 mm plate die castings were fabricated under various shot conditions, such as plunger velocities of 0.7 m/s ~ 3.0 m/s and fast shot set points of the cavity of .25%, 0%, 25%, and 50%. The mold filling behavior of Al melts in the cavity was analyzed by a numerical method. Also, according to the shot conditions, the results of numerical analyses were compared to those of die-casting experiments. The porosity levels of the plate castings were analyzed by X-ray CT images and by density and microstructural analyses. The effects of the porosity on the mechanical properties were analyzed by tensile tests and hardness tests. The simulation results are in good general agreements with the die-casting experimental results. When plunger velocity and fast shot set point are 1.0 m/s and cavity 25% position, castings had optimum condition for good mechanical properties and a low level of porosity.
Al thin plate die casting, Casting thickness, Plunger velocity, Porosity, Simulation