Abstract
Although investment casting (IC) provides an economical method for the mass production of metal parts with complex and intricate features, the relatively long lead times and high tooling costs involved in the manufacture of metal moulds for the fabrication of sacrificial IC wax patterns lead to cost justification problems for customised single casting, small and medium quantity production. The application of rapid prototyping (RP) technologies to fabricate complex sacrificial IC patterns can result in significant reduction in the costs and lead times associated with single part or small quantity production. Previously, the authors assessed the suitability of the fused deposition modelling process, in particular ABS models, for creating sacrificial IC patterns [1]. The current research looks into the feasibility of employing patterns fabricated by Model Maker II (MMII) as sacrificial IC patterns to produce metal castings rapidly. In addition, an indirect approach involving the utilisation of silicone rubber moulding with an MMII-fabricated master pattern to produce sacrificial IC wax patterns is investigated. The dimensional accuracies and surface qualities of the final metal castings generated from the RP-produced patterns are presented. Cost and lead time comparisons are also carried out and presented .
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Lee CW, Chua CK, Cheah CM, Tan LH, Feng C (2004) Rapid investment casting: direct & indirect approaches via fused deposition modeling. Int J Adv Manuf Technol 23(1–2):93–101
Groover MP (1996) Fundamentals of modern manufacturing: materials, processes and systems. Prentice-Hall, New York
Kalpakjian S (1991) Manufacturing processes for engineering materials, 2nd edn. Addison-Wesley, New York
Chua CK, Leong KF, Lim CS (2003) Rapid prototyping: principles & applications. World Scientific, Singapore
Greenbaum PY, Khan S (1993) Direct investment casting of rapid prototype parts: practical commercial experience. Proceedings of 2nd European Conference on Rapid Prototyping, Nottingham, UK, pp 77–93, 15–16 July 1993
Greenbaum PY, Pearson R, Khan S (1993) Direct investment casting of RP parts: practical commercial experience. Proceedings of 4th International Conference on Rapid Prototyping, Dayton, OH, pp 43–50, 14–17 June 1993
Dickens M, Stangroom R, Greul M (1995) Conversion of RP models to investment castings. Rapid Prototyping J 1(4):4–11
Cooper K, Williams G (2001) NASA on the fast track: a case study in cost savings w/ the application of RP and investment casting. Proceedings of Rapid Prototyping and Manufacturing Conference, SME, Cincinnati, OH, 14–17 May 2001
Blake P, Fodran E, Koch M, Menon U, Priedeman B, Sharp S (1997) FDM of ABS patterns for investment casting. Proceedings of Solid Freeform Fabrication Symposium, Austin, TX, pp 195–202, 11–13 August 1997
Hull CW, Jacobs PF (1995) Stereolithography and quickcast: moving towards rapid tooling. 3D Systems
Prioleau FR (1991) Applications of stereolithography in investment casting. Proceedings of 2nd International Conference on Rapid Prototyping, University of Dayton, Dayton, OH, 23–26 June 1991
Sundaram R (1996) Investment casting using stereolithography. Dissertation, University of Central Florida, Orlando, FL
Solidscape, Inc. (2002) http://www.solid-scape.com
Bathsheba (2002) http://www.bathsheba.com
Wu M, Tinschert J (2001) Application of laser measuring, numerical simulation and rapid prototyping to titanium dental castings. Dental Mater 17(2):102–108
Smith BJ, St. Jean P, Duquette ML (1996) A comparison of rapid prototype techniques for investment casting Be-Al. Proceedings of Rapid Prototyping and Manufacturing ’96 Conference, Dearbon, MI, 2, pp 1–11, 23–25 April 1996
Shree Matangi Investment Casting Pvt. Ltd. (2002) http://www.investmentcastingindia.com
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Chua, C., Feng, C., Lee, C. et al. Rapid investment casting: direct and indirect approaches via model maker II. AMT 25, 26–32 (2005). https://doi.org/10.1007/s00170-004-1865-5
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DOI: https://doi.org/10.1007/s00170-004-1865-5