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Studying the Technology of Creating Cortical Electrode Instruments using the Rapid Prototyping Technology

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper shows the results of studying the technology of manufacturing cortical electrode-instruments (EI) with the use of indirect methods of the Rapid Prototyping technology. Functional EI prototypes were made by layered synthesis of the photopolymer material with the use of the stereolithography technology (SLA - Stereo Lithography Apparatus). The article is focused on two methods of indirect EI manufacturing. One of the EI prototypes was used for making a molded wax model for hot investment casting, followed by applying copper coating. The second prototype was used for applying copper plating to a prepared current-conductive layer. As a result of EDMing a steel workpiece, both EIs reached the desired depth, which is 1 mm. The copper plating applied to the EI preserves its integrity. Through the use of the casting technology, there is a possibility to cut the economic costs by 35%. Using a prototype with preliminarily applie conductive coating makes it possible to make geometrically-complex EIs.
Rocznik
Strony
157--162
Opis fizyczny
Bibliogr. 8 poz., il., rys., tab.
Twórcy
autor
  • Materials, Technology and Designing Machines Department, Perm National Research Polytechnic University, 29, Komsomolsky Ave., Perm, Russia
  • Materials, Technology and Designing Machines Department, Perm National Research Polytechnic University, 29, Komsomolsky Ave., Perm, Russia
  • Materials, Technology and Designing Machines Department, Perm National Research Polytechnic University, 29, Komsomolsky Ave., Perm, Russia
Bibliografia
  • [1] Shrivastava, S.M. & Sarathe, A.K. (2014). Influence of Process Parameters and Electrode Shape Configuration on Material Removal Rate, Surface Roughness and Electrode Wear in Die Sinking EDM. International Journal of Emerging Technology and Advanced Engineering. 4(4), 138-145.
  • [2] Semon, G. (1975). A Practical Guide to Electro Discharge Machining. Geneve: Ateliers des Charmilles, pp: 63-76.
  • [3] Meshram, D. & Puri, Y. (2012). EDM Electrodes Manufacturing Using Rapid Tooling Concept. International Journal of Engineering Research and Development. 3(4), 58-70.
  • [4] Ferreira, J.C., Mateus, A.S. & Alves, N.F. (2007). Rapid Tooling Aided by Reverse Engineering to Manufacture EDM Electrodes. International Journal of Advanced Manufacturing Technology. 34, 1133-1143.
  • [5] Arthur, A., Dickens, P.M., Bocking, C., Cobb, R.C. (1996). Wear and Failure Mechanisms for SL EDM Electrodes. In the Proceedings of the 7th Solid Freeform Fabrication Symposium, Austin, Texas, (pp: 175-189).
  • [6] Ferreira, J.C. & Mateus, A.S. (2003). A Numerical and Experimental Study of Fracture in RP Stereolithography Patterns and Ceramic Shells for Investment Casting. Journal of Materials Processing Technology. 134(1), 135-144.
  • [7] Pastirčák, R., Sládek, A. & Kucharčíková, E. (2015). The Production of Plaster Molds with Patternless Process Technology. Archives of Foundry Engineering. 15(2), 91-94.
  • [8] Budzik, G. (2007). Properties of Made by Different Methods of RP Impeller Foundry Patterns. Archives of Foundry Engineering. 7(2), 83-86.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-342e4255-b2c8-40c0-93e2-73237ce3bee2
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