Secondary Dendrite Arm Spacing Refining in Cylinder Heads by Low Pressure Die Casting Process

2011 ◽  
Author(s):  
Edison Marcelo Serbino ◽  
Jairo C\adndido ◽  
Ely Roberto Benedicto
2018 ◽  
Vol 21 (6) ◽  
pp. 1800105 ◽  
Author(s):  
Mikel Merchán ◽  
Pedro Egizabal ◽  
Maider García de Cortázar ◽  
Ane Irazustabarrena ◽  
Haize Galarraga

Author(s):  
Alberto Vergnano ◽  
Umberto Bergamini ◽  
Daniele Bianchi ◽  
Paolo Veronesi ◽  
Roberto Spagnolo ◽  
...  

AbstractThe structural properties of cast aluminum parts are strongly affected by the solidification in the production process. The solidification dynamics determines the Secondary Dendrite Arm Spacing (SDAS), directly affecting the structural strength of the alloy. Simulation techniques enable the integrated design of chassis parts and their production equipment. However, in order to effectively predict the SDAS formation, the simulation models need to be investigated and calibrated. The present research investigates the SDAS formation models and identifies a robust relation to be used in Design by Simulation phases for AlSi7Mg0.3 parts.


2015 ◽  
Vol 766-767 ◽  
pp. 1196-1200
Author(s):  
P.V. Krishnan ◽  
B. Vijaya Ramnath ◽  
K. Maran ◽  
R. Kesavan

In Case Industry motorcycles models Head lamp casing is made up of Aluminium and it is manufactured by gravity pressure die casting (GDC) process. The rejections rate and cycle time are very high. These results in frequent line stoppage due to the shortage of Head lamp casing. Hence we have decided to proceed with some other process for the manufacturing of head lamp casing, since the existing GDC process has some limitations it cannot be improved further. To move with other process, we have studied sheet metal, in which our head lamp casing design is so complicated and process would be more tedious. Moreover aesthetics look of the head lamp casing will be affected. So we progressed with other die casting process. We have studied pressure die casting (PDC) process first, but in PDC, head lamp casing cannot be manufactured two halves, due to the size of our head lamp casing. Hence we proceeded with low pressure die casting (LPDC) process, in which sand cores are made and thru which Head lamp casing are manufactured. To move with LPDC process, the present supplier base is not feasible. Hence we decided to move with an alternate source for LPDC process. Three LPDC manufacturing suppliers were shortlisted. Among the three suppliers, based on the quality, cost and delivery time, one supplier is approved. Approved supplier is permitted for die making and manufacturing head lamp casing after the product and process audit. Once die manufacturing is completed, samples were taken and tried out at our end. The new LPDC head lamp casing is found ok and hence rejections at supplier end had minimised and rework at our end had eliminated. These results in eliminating the dispatch constraints and thus our motto of avoiding line stoppage due to the shortage of head lamp casing are eliminated.


2005 ◽  
Vol 488-489 ◽  
pp. 393-396 ◽  
Author(s):  
Ying Hong Peng ◽  
Da Yong Li ◽  
Ying Chun Wang ◽  
Ji Long Yin ◽  
Xiao Qing Zeng

Most magnesium alloy components available for automobile are made through die casting. In this paper, PAM-CASTTM, commercial die casting simulation software based on the finite difference method, is employed to simulate the low-pressure die casting process of magnesium wheel hub. The temperature field and velocity field during filling and solidification stages are analyzed; the evolution of temperature distribution and liquid fraction was numerically studied. Then, the potential defects including the gas entrapments in the middle of the spokes, shrinkages between the rim and the spokes are predicted. The cooling performance of mould during casting is also investigated. Via analyzing the shrinkage defects generated under various cooling conditions, the cooling system set in the side mould is found to be more effective for enhancing the cooling capacity at the rim/spoke junction areas. With this cooling system, the hot spots at the junctions are obviously reduced and product quality is improved.


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