[1]
|
Chen C. W., Li C. R., Han T. H., Shei C. T., Hwang W. S and C.M.Houng,
1994. Numerical Simulation of Filling Pattern for an Industrial Die Casting
and its Comparison with the defects distribution of an actual castings . Trans. of
the American Foundrymen’s Society, 102 , 139-146.
|
[2]
|
Chen. Y. F. and W.S. Hwang, 1996. Mould Filling Simulation with Partial Cell
Method. Trans American Foundrymen's Society , 104 , 197-201.
|
[3]
|
Fackeldy. M, Ludwig. A and P.R. Sahm,, 1996. Coupled Modelling of the
Solidification process predicting Temperature, Stresses and Microstructure
Computational Material Science, 7(194-199).
|
[4]
|
Cheng C. Q., Upadhya G., Suri V. K., Atmakuri S and A.J Paul,1992.
Solidification Modelling and Prediction of Defect of a sand cast Ductile Iron TPlate.
American Foudrymen Society. 20p
|
[5]
|
Ehlen G. Schweizer A. Ludwig A. and P.R Sahm, 2000. Free Surface Model to
Predict the Influence of Shrinkage Cavities on the Solute Redistribution in
Castings In: Modeling of Casting, Welding and Advanced Solidification
Processes IX, ed. P.R. Sahm, P. N. Hansen, J. G. Conley, 632-63
|
[6]
|
A. Ludwig,2001. Comparison of Dendrites of a pure Material with Thermal Alloy
Dendrites. Acta Materiala, 49 , 165.
|
[7]
|
MEBSP,2002. Microstructural Engineering by solidification processing;
Properties base for Solidification Simuilation- European collaborative program”
http:// www.gi.rwth-aachen.de/MEBSP-b
|
[8]
|
Ludwig. A , Quested. B . and G.Neuer,2001. How to find Thermophysical Material
Property data for casting Simulations. Advanced. Engineering Materials, 3, 11
|
[9]
|
Oluwole.O Ph.D Thesis, Obafemi Awolowo University, (2004) 266 pages.
|
[10]
|
Bunday B . D and H. Mulholand (1975). Pure Mathematics for Advanced Level Butterworths , London , 94 -129, 170 – 187.
|
[11]
|
E. Myskowski, H. Bishop and W. PelliniT Riser Diagrams Trans. AFS, 63 (1955) 271.
|