Advanced search
Publication Cover
Canadian Metallurgical Quarterly
The Canadian Journal of Metallurgy and Materials Science
Volume 30, 1991 - Issue 4
Submit an article Journal homepage
14
Views
5
CrossRef citations to date
0
Altmetric
Materials Properties and Processing

Thermal Analysis for Shrinkage Prediction in Commercial Ductile Iron Castings

Fred J. Bradley
&
Conrad A. Fung
Pages 251-260 | Published online: 18 Jul 2013

References

  • K. Ableidinger and Dr Raebus, Thermoanalytical computer control and correction of SG iron melts with constant feeding conditions, British Foundryman 321-324 (Aug/Sept 1986).
  • C. A. Fung, P. F. Bartelt, F. J. Bradley and R. W. Heine, On the development of a thermal analysis-based empirical model for shrinkage defect prediction in ductile iron castings, 4th Int. Conf. on the Physical Metallurgy of Cast Iron, Tokyo, Japan, pp. 539-548 (September 1989).
  • C. A. Fung, P. F. Bartelt, F. J. Bradley and R. W. Heine, Statistical modeling for the prediction of shrinkage in ductile iron castings, AFS Trans. 98, 489–494 (1990).
  • F. J. Bradley, Cai Jun and M. H. Zmerli, Numerical simulation of the solidification of eutectic ductile iron casting alloys, 6th Int. Conf. on Numerical Methods in Thermal Problems (edited by R. Lewis and K. Morgan), pp. 320-330. Pineridge Press, Swansea (1989).
  • F. J. Bradley, M. H. Zmerli and Cai Jun, Finite element modeling of ductile iron solidification in thermal analysis cups and T-plate shrinkage test castings, 4th Int. Conf. on the Physical Metallurgy of Cast Iron, Tokyo, Japan, pp. 495-504 (September 1989).
  • F. J. Bradley, P. F. Bartelt, C. A. Fung and R. W. Heine, On the application of thermal analysis to the control of molten metal processing of ductile iron, 4th Int. Conf. on the Physical Metallurgy of Cast Iron, Tokyo, Japan, pp. 485-494 (September 1989).
  • V. de L. Davies, Feeding range determination by numerically com-puted heat distribution, AFS Cast Metals Res. J. 33-44 (June 1975).
  • E. Niyama, T. Uchida, M. Morikawa and S. Saito, A method of shrinkage prediction and its application to steel castings, 49th Int. Foundry Congress, Chicago, pp. 1-12 (April 1982).
  • S. Minakawa, I. V. Samarasekera and F. Weinberg, Centreline porosity in plate castings, Metall. Trans. B 16B, 823–829 (1985).
  • J. C. Moosbrugger and J. T. Berry, Calculation of feeding range data for hypoeutectic A-357 alloy using FEM solidification model results, AFS Trans. 94 (1986).
  • K. Kubo and R. D. Pehlke, Mathematical modeling of porosity formation in solidification, Metall. Trans. 16B, 359–366 (1985).
  • D. R. Poirier, K. Yeum and A. L. Maples, A thermodynamic prediction for microporosity formation in aluminum-rich Al-Cu alloys, Metall. Trans. 18A, 1979–1987 (1987).
  • F. J. Bradley, On simulating latent heat evolution during ductile iron solidification, TMS Int. Symp. on Materials Processing in the Computer Age, New Orleans, pp. 361-376 (February 1991).
  • F. J. Bradley, On micro-modeling of eutectic ductile iron solidi-fication. ASME Symp. on Heat and Mass Transfer in Solidification Processing, Atlanta, Georgia (December 1991).
  • C. R. Loper, Jr., R. W. Heine and M. D. Chaudhari, Thermal analysis for structure control, 2nd Int. Symp. on the Metallurgy of Cast Irons, Geneva, Switzerland (edited by B. Lux, I. Minkoff and F. Mollard), pp. 640-657 (1987).
  • E. F. Ryntz, Jr., J. F. Janowak, A. W. Hochstein and C. A. Wargel, Prediction of nodular iron microstructure using thermal analysis, AFS Trans. 79, 141–144 (1971).
  • L. Backerud, K. Nillson and H. Steen, Study of nucleation and growth of graphite in magnesium-treated cast iron by means of thermal analysis, 2nd Int. Symp. on the Metallurgy of Cast Irons, Geneva, Switzerland (edited by B. Lux, I. Minkoff and F. Mollard), pp. 625-635 (1974).
  • R. Monroe and C. E. Bates, Thermal analysis of ductile iron sam-ples for graphite shape prediction, AFS Trans. 90, 307–311(1982).
  • U. Ekpoom and R. W. Heine, Thermal analysis (DHA) of cast iron, AFS Trans. 89, 27–38 (1981).
  • I. G. Chen and D. M. Stefanescu, Computer-aided differential thermal analysis of spheroidal and compacted graphite cast irons, AFS Trans. 92, 947–964 (1984).
  • D. M. Stefanescu, Solidification of flake, compacted/vermicular and spheroidal graphite cast irons as revealed by thermal analysis and directional solidification experiments, Mat. Res. Soc. Symp. Proc. 34, 151–162 (1985).
  • A. J. Sivula, T. Rantala and A. Louvo, Possibility of control-ling the quality of SC-irons by computerized thermal analysis, FOCOMP '86 Conf., Krakow, Poland (June 1986).
  • D. M. Stefanescu, D. Bandyopadhyay and G. Upadhya, Coupling of solidification kinetics models with heat transfer models for casting, Casting of Near Net Shape Products (edited by Y. Sahai, J. E. Battles, R. S. Carbonara and C. E. Mobley), pp. 153-165. TMS (1988).
  • K. T. Upadhya, D. M. Stefanescu, K. Lieu and D. P. Yeager, Computer-aided cooling curve analysis, principles and applications in metal casting, AFS Trans. 97 (1989).
  • P. H. Mikkola and R. W. Heine, Mold aggregate and casting design interactions causing defects in white iron castings, AFS Trans. 78, 265–268 (1970).
  • M. Rappaz and D. M. Stefanescu, Modeling of microstructural evolution, Metals Handbook, 9th Edn, Vol. 15, Casting, pp. 883-892 (1988).
  • M. Rappaz, Modeling of microstructure formation in solidification processes, Int. Mater. Rev. 34 (3), 93-123 (1989).
  • H. Fredriksson and I. Svensson, Computer simulation of the struc-ture formed during solidification of cast iron, Mat. Res. Soc. Symp. Proc. 34, 273–284 (1985).
  • K. Su, I. Ohnaka, I. Yamauchi and T. Fukusako, Computer simu-lation of solidification of nodular cast iron, Mat. Res. Soc. Symp. Proc. 34, 181–189 (1985).
  • D. M. Stefanescu and C. S. Kanetkar, Computer Modeling of the Solidification of Eutectic Alloys: Comparison of Various Models for Eutectic Growth of Cast Iron (edited by H. Fredriksson), pp. 255-266. E-MRS, Strasbourg (June 1986).
  • M. Castro, P. Alexandre, J. Lacaze and G. Lesoult, Microstructures and solidification kinetics of cast irons: experimental study and theoretical modeling of equiaxed solidification of S.G. and grey cast iron, 4th Int. Conf. on the Phys. Metal. of Cast Iron, Tokyo, pp. 433-440 (September 1989).
  • G. Lesoult, Modeling the solidification of cast irons: state-of-the-art and usefulness, 4th Int. Conf. on the Phys. Metal. of Cast Iron, Tokyo, pp. 413-422 (1989).
  • M. Rappaz, J. D. Richoz and Ph. Thevoz, Modelling of solidi-fication of nodular cast iron, Euromat 89, E-MRS, Aachen-RFA, pp. 1-6 (November 1989).
  • G. Comini, S. Del Guidice, R. W. Lewis and O. C. Zienkiewicz, Finite element solution of nonlinear heat conduction problems with special reference to phase change, Int. J. Numer. Meth. Engng 8, 613–624 (1974).
  • W. D. Rolph and K. J. Bathe, An efficient algorithm for analysis of nonlinear heat transfer with phase change, Int. J. Numer. Meth. Engng 18, 119–134 (1982).
  • T. W. Clyne, The use of heat flow modeling to explore solidification phenomena, Metall. Trans. B 13B, 471–478 (1982).
  • J. Roose and 0. Storrer, Modelization of phase changes by fictitious heat flow, Int. J. Numer. Meth. Engng 20, 217–225 (1984).
  • B. G. Thomas, I. V. Samarasekera and J. K. Brimacombe, Com-parison of numerical modeling techniques for complex, two-dimen-sional, transient heat-conduction problems, Metall. Trans. B 15B, 307–318 (1984).
  • M. Samonds, K. Morgan and R. W. Lewis, Finite element modeling of solidification in sand castings employing an implicit-explicit algorithm, Appl. Math. Modeling 9, 170–174 (1985).
  • J. A. Dantzig and S. C. Lu, Modeling of heat flow in sand castings: part I. The boundary curvature method, Metall. Trans. B 16B, 195–202 (1985).
  • M. J. Beffel, J.0. Wilkes and R. D. Pehlke, Finite element simu-lation of casting processes, AFS Trans. 94, 757–764 (1986).
  • V. R. Voller and C. R. Swaminathan, A general source based method for solidification phase change, Numer. Heat Transfer (1991), in press.
  • V. R. Voller, C. R. Swaminathan and B. G. Thomas, Fixed grid techniques for phase change problems: a review, Int. J. Numer. Meth. Engng 30, 875–898 (1990).
  • K. Morgan, R. W. Lewis and O. C. Zienkiewicz, An improved algorithm for heat conduction problems with phase change, Int. J. Numer. Meth. Engng 12, 1191–1195 (1987).
  • R. W. Lewis and P. M. Roberts, Finite element simulation of solidification problems, Appl. Scient. Res. 44, 61–92 (1987).
  • W. D. Bennon and F. P. Incropera, A continuum model for momen-tum, heat, and species transport in binary solid-liquid phase change systems-II. Application to solidification in a rectangular cavity, Int. J. Heat Mass Transfer 30, 2171–2187 (1987).
  • C. Beckerman and R. Viskanta, Double-diffusive convection during dendritic solidification of a binary mixture, PhysicoChem. Hydro-dyn. 10, 195–213 (1988).
  • R. W. Lewis, Advances in finite element simulation of solidification, Vth Engng Foundation Conf. on Modeling of Casting, Welding, and Advanced Solidification Processes, Davos, Switzerland (Sep-tember 1990), in press.
  • S. Engler, Erstarungs morphologi und Giesseigenschaften, Z. Metallkunda 63 (7), 375-379 (1972).
  • A. Rickert and S. Engler, Solidification morphology of cast irons, Physical Metallurgy of Cast Iron (edited by H. Fredriksson and M. Hillert), pp. 165-174. North-Holland, Amsterdam (1985).

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.