Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece
High Pressure Die Casting (HPDC) is a manufacturing process producing complex and precise products by injecting molten material into mold cavity at top speed and pressure. The quality of product is highly related with mold cavity design. Casting defects due to inappropriate mold design will affect m...
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Trans Tech Publications, Switzerland
2019
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my.unimas.ir.283152021-04-21T23:48:01Z http://ir.unimas.my/id/eprint/28315/ Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece Mohd Danial, Ibrahim Ger, Lian Tan Lidyana, Roslan Kashiwabara, Yuki Jasmine, Jendia Sunami, Yuta TJ Mechanical engineering and machinery TS Manufactures High Pressure Die Casting (HPDC) is a manufacturing process producing complex and precise products by injecting molten material into mold cavity at top speed and pressure. The quality of product is highly related with mold cavity design. Casting defects due to inappropriate mold design will affect mechanical properties, surface quality and product life cycle. Optimization of runner system is essential to manufacture complex and precision product design with minimal defects. The combination of runner and gating system is investigated in this paper. This paper investigated the effect of runner and gating optimization in reducing the gas porosity inside casting by evaluating the fluid and thermal distribution behavior in experimental and Computational Fluid Dynamic (CFD). The gas porosity generated in the molten magnesium alloy is due to the turbulent flow and the inconsistency of the fluid flow to push the gas bubble away from the main casting. This paper includes an X-ray of a sample product that shows correlation between gas porosity and CFD results. Results show that localize porosity gathered at the bottom of the main casting. Based on localized porosity position, runner and gating system is modified and numerical simulation is carried out for analysis. An inspection instrument step-type test piece is taken as an investigation sample to illustrate the technique of design modifications and improvements. Process parameters considered in this paper are injection speed, injection pressure, melt temperature and mold temperature. This paper proposed new runner designs that can generate balanced velocity and temperature distribution inside mold cavity, improving the solidification process aimed for reducing casting defects. Trans Tech Publications, Switzerland 2019 Article PeerReviewed text en http://ir.unimas.my/id/eprint/28315/1/Mohd%20Danial.pdf Mohd Danial, Ibrahim and Ger, Lian Tan and Lidyana, Roslan and Kashiwabara, Yuki and Jasmine, Jendia and Sunami, Yuta (2019) Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece. Materials Science Forum, 975. pp. 1-6. ISSN 1662-9752 https://www.scientific.net/MSF DOI: xxx/www/scientific.net/MSF.975.xx |
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TJ Mechanical engineering and machinery TS Manufactures Mohd Danial, Ibrahim Ger, Lian Tan Lidyana, Roslan Kashiwabara, Yuki Jasmine, Jendia Sunami, Yuta Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| description |
High Pressure Die Casting (HPDC) is a manufacturing process producing complex and precise products by injecting molten material into mold cavity at top speed and pressure. The quality of product is highly related with mold cavity design. Casting defects due to inappropriate mold design will affect mechanical properties, surface quality and product life cycle. Optimization of runner system is essential to manufacture complex and precision product design with minimal defects. The combination of runner and gating system is investigated in this paper. This paper investigated the
effect of runner and gating optimization in reducing the gas porosity inside casting by evaluating the fluid and thermal distribution behavior in experimental and Computational Fluid Dynamic (CFD). The gas porosity generated in the molten magnesium alloy is due to the turbulent flow and the inconsistency of the fluid flow to push the gas bubble away from the main casting. This paper includes an X-ray of a sample product that shows correlation between gas porosity and CFD results.
Results show that localize porosity gathered at the bottom of the main casting. Based on localized
porosity position, runner and gating system is modified and numerical simulation is carried out for analysis. An inspection instrument step-type test piece is taken as an investigation sample to illustrate the technique of design modifications and improvements. Process parameters considered in this paper are injection speed, injection pressure, melt temperature and mold temperature. This paper proposed new runner designs that can generate balanced velocity and temperature distribution inside mold cavity, improving the solidification process aimed for reducing casting defects. |
| format |
Article |
| author |
Mohd Danial, Ibrahim Ger, Lian Tan Lidyana, Roslan Kashiwabara, Yuki Jasmine, Jendia Sunami, Yuta |
| author_facet |
Mohd Danial, Ibrahim Ger, Lian Tan Lidyana, Roslan Kashiwabara, Yuki Jasmine, Jendia Sunami, Yuta |
| author_sort |
Mohd Danial, Ibrahim |
| title |
Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| title_short |
Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| title_full |
Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| title_fullStr |
Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| title_full_unstemmed |
Numerical and Experimental Analysis on Runner and Gate Positioning for Magnesium Alloy Die-casted Test Piece |
| title_sort |
numerical and experimental analysis on runner and gate positioning for magnesium alloy die-casted test piece |
| publisher |
Trans Tech Publications, Switzerland |
| publishDate |
2019 |
| url |
http://ir.unimas.my/id/eprint/28315/1/Mohd%20Danial.pdf http://ir.unimas.my/id/eprint/28315/ https://www.scientific.net/MSF |
| _version_ |
1698700811185422336 |
| score |
13.160551 |