Publisher: Trans Tech Publications
E-ISSN: 1662-9779|2016|256|334-339
ISSN: 1012-0394
Source: Solid State Phenomena, Vol.2016, Iss.256, 2016-10, pp. : 334-339
Disclaimer: Any content in publications that violate the sovereignty, the constitution or regulations of the PRC is not accepted or approved by CNPIEC.
Abstract
Semi-solid slurry has significantly higher viscosity than liquid metal. This character of fluidity makes product design and die design, such as gating system, overflow and venting system, be different between these two die casting processes. In the present paper, taking a clamp product as an example, analyses the product optimization and die design by comparing the experimental and computational numerical simulation results. For the clamp, product structure is designed to be suitable for characters of SSM die casting process. The gating system is designed to be uniform variation of thickness, making the cross-sectional area uniformly reduce from the biscuit to the gate. This design ensures semi-solid metal slurry to fill die cavity from thick wall to thin wall. Gate position is designed at the thickest location, the gate shape of semi-solid die casting is set to be much bigger than traditional liquid casting. A good filling behaviour can be achieved by aforementioned all these design principles and it will be helpful to the intensification of pressure feeding after filling.
Related content
Semi-Solid Die Casting of Al-25%Si
Solid State Phenomena, Vol. 2014, Iss. 217, 2015-01 ,pp. :
Access to resources
Recommend
Semi-Solid Forging Process and Die Design in the Production of Aluminum Thin Plates
Solid State Phenomena, Vol. 2014, Iss. 217, 2015-01 ,pp. :
Effect of Slurry Temperature Distribution on Semi-Solid Die Casting
Solid State Phenomena, Vol. 2016, Iss. 256, 2016-10 ,pp. :
Application of Multiphase Modelling in Semi-Solid Die Casting: Blister Prediction
Solid State Phenomena, Vol. 2016, Iss. 256, 2016-10 ,pp. :