The scope of application of incremental rapid prototyping methods in foundry engineering

• Autorzy: Stankiewicz M. , Budzik G. , Patrzałek M. , Wieczorowski M. , Grzelka M. , Matysiak H. , Slota J.
• Języki publikacji: EN

Abstrakty

EN

The article presents the scope of application of selected incremental Rapid Prototyping methods in the process of manufacturing casting models, casting moulds and casts. The Rapid Prototyping methods (SL, SLA, FDM, 3DP, JS) are predominantly used for the production of models and model sets for casting moulds. The Rapid Tooling methods, such as: ZCast-3DP, ProMetalRCT and VoxelJet, enable the fabrication of casting moulds in the incremental process. The application of the RP methods in cast production makes it possible to speed up the prototype preparation process. This is particularly vital to elements of complex shapes. The time required for the manufacture of the model, the mould and the cast proper may vary from a few to several dozen hours.

Słowa kluczowe

EN

rapid prototyping; foundry engineering; rapid tooling

PL

prototypowanie szybkie; przemysł odlewniczy; oprzyrządowanie szybkie

• Wydawca: Komisja Odlewnictwa Polskiej Akademii Nauk Oddział w Katowicach
• Czasopismo: Archives of Foundry Engineering
• Rocznik: 2010
• Tom: Vol. 10, iss. 1 spec.
• Strony: 405--410
• Opis fizyczny: Bibliogr. 21 poz., rys., tab.

Twórcy

autor

Stankiewicz M.

• Bibus Menos Sp. z o.o., ul. Spadochroniarzy 18, 80-298 Gdańsk

autor

Budzik G.

• Department of Machine Design, Rzeszów University of Technology, Al. Powstańców Warszawy 8, 35-959 Rzeszów

autor

Patrzałek M.

• Solveere, ul. Kazimierza Wielkiego 29, 32-300 Olkusz

autor

Wieczorowski M.

• Institute of Mechanical Technology, Poznan University of Technology

autor

Grzelka M.

• Institute of Mechanical Technology, Poznan University of Technology

autor

Matysiak H.

• Research Center “Functional Materials” at Warsaw University of Technology, Poland

autor

Slota J.

• University of Technology in Kosice

Bibliografia

• [1] G. Budzik, H. Matysiak, J. Pacana, M. Cygnar, The analysis of chosen methods of Rapid Prototyping of casting models for blades of aircraft engines, Combustion Engines No 2009-SC1, s. 283-288.
• [2] N. Homburg, E. Wellbrock, Knowledge – based manufacturing strategy and methods for foundries, Conference and Exhibition for Rapid Technology, Erfurt 2006.
• [3] R. Hartym, Dimensional accuracy of investment casting for the burned pattern process, Archives of Foundry, Volume 6, No 18 (2/2), (2006) 231-236.
• [4] R. Haratym, J. Tomasik, The influence of ceramic mould quality on surface geometry of al investment casting, Archives of Foundry, Volume 6, No 18 (2/2), (2006) 237-242.
• [5] A. Gebhardt, Rapid Prototyping, Carl Hanser Verlag, Munich 2006.
• [6] T. Wohlers, Wohlers Report 2009 – State of the Industry, Annual Worldwide Pro-gress Report. Wohlers Associates Inc., Fort Collins, CO, USA 2009.
• [7] J.C. Feriera, E. Santos, H. Madureira, J. Castro, Integration of VP/RP/RT/RE/RM for rapid product and process development, Rapid Prototyping Journal Vol. 12 No. 1/2006, Emerald 2006, 18-28.
• [8] G. Budzik, T. Markowski, M. Sobolak, Prototyping of Bevel Gears of Aircraft Power Transmission, Journal of KONES Powertrain and Transport, Vol. 14, No. 2, Warszawa 2007, s. 61-66.
• [9] G. Budzik, T. Markowski, M. Sobolak, Hybrid foundry patterns of bevel gears. Archives of Foundry Engineering, Vol. 7, Issue 1/2007, s. 131-134.
• [10] G. Budzik, Surface Roughness of Aircraft Engine Blade Models Produced with Various Methods of Rapid Prototyping, Journal of KONES Powertrain and Transport, Vol. 14, No. 2, Warszawa 2007, s. 55-60.
• [11] G. Budzik, The analysis of the possibility of the application of the casting waxes in the process RP, Archives of Foundry Engineering, vol. 9, No 2/2009, s. 133-136.
• [12] I. Gajdoš, J. Slota, E. Spišák, FDM prototypes virtual modeling, ICAT 2008, 2nd International Conference on Additive Technologies: DAAAM Specialized Conference: September 17th -19th, 2008, Ptuj, Slovenia: Proceedings. Vienna: DAAAM International, 3 p. ISBN 3-901509-72-0.
• [13] W. Liou, Rapid Prototyping and engineering applications – a toolbox for prototype development, Taylor & Francis Group, 2008.
• [14] E. Bassoli, A. Gatto, L. Iuliano, M.G. Violente, 3D printing technique applied to rapid casting, Rapid Prototyping Journal, 13/3 (2007).
• [15] G. Budzik, Possibilities of utilizing 3DP technology for foundry mould making, Archives of Foundry Engineering, Vol. 7, Issue 2/2007, s. 65-68.
• [16] ZPrint Software Manual Version 7.6, Z Corporation 2008.
• [17] VX800-3D – Printing System – Voxeljet Technology GmbH Augburg Germany 2008.
• [18] From CAD to casting, just by printing, Die Casting & Foundry Techniques – December 2009.
• [19] Digital Core & Molding Making Machine – Prometal RCT GmbH Augburg Germany 2009.
• [20] Solidscape T76 System Awarded “BEST OF SHOW” and “COOLEST TECH PRODUCT” JCK Magazine, August 2007.
• [21] ProJet CPX 3000 – Real Wax Pattern Production System, 3D Systems, Rock Hill 2009.