Metrics

  • citations in SCIndeks: [1]
  • citations in CrossRef:0
  • citations in Google Scholar:[]
  • visits in previous 30 days:5
  • full-text downloads in 30 days:5

Contents

article: 2 from 4  
Back back to result list
2011, vol. 17, iss. 1, pp. 25-31
Technological limitations of rapid manufacturing technologies
Visoka tehnička škola, Niš
Keywords: Rapid protpyping (RP); Design for Manufacturability (DFM)
Abstract
Technological capabilities of certain production technologies are the basis for the design for manufacturing and assembly work. These capabilities are known for the case of substractive and formative technologies. However, for the rapid manufacturing technologies, that are experiencing explosive growth, the technological capabilities, which are otherwise broad, are insufficiently known. This paper analyses and shows the technological capabilities (and limitations) of the most commonly used rapid manufacturing technologies based on the additive processes of processing.
References
Boothroyd, G., Redford, A.H. (1968) Mechanized ssembly. London: McGraw-Hill
Cutkosky, M.R., Tenenbaum, J.M. (1992) Toward a framework for concurrent design. International Journal of Systems Automation: Research and Applications, 1(3), str. 239-261
Gupta, S.K., Nau, D.S. (1995) A systematic approach for analyzing the manufacturability of machined parts. Computer-Aided Design, 27(5)
Gupta, S.K., Das, D., Regli, W.C. (1997) Automated manufacturability analysis: A survey. Research in Engineering Design, 9(3)
Harrison, P. (2003) Rapid prototyping user guide. Leicester: Faculty of Computing Science and Engineering, De Montfort University
Hsiao, D. (1991) Feature mapping and manufacturability evaluation with an open set feature modeler. Tempe, AZ: Arizona State University - Mechanical Engineering, PhD thesis
Kirkland, C. (1988) Meet two architects of design-integrated manufacturing. Plastics World, Dec., 46-50
Manić, M.T., Miltenović, V., Stojković, M.S., Banić, M. (2010) Feature Models in Virtual Product Development. Strojniski Vestnik - Journal of Mechanical Engineering, vol. 56, br. 3, str. 169-178
Milovanovic, J., Stojkovic, M., Trajanovic, M.D. (2009) Rapid tooling of tyre tread ring mould using direct metal laser sintering. Journal of Scientific & Industrial Research, vol. 68, br. 12, str. 1038-1042
Milovanović, J. (2006) Mogućnost korišćenja tehnologija za brzu izradu prototipa u proizvodnji alata za vulkanizaciju pneumatika. Niš: Univerzitet, magistarski rad
Milovanović, J., Trajanović, M., Vitković, N., Stojković, M. (2009) Rapid prototyping tehnologije i materijali za izradu implantata. IMK-14 - Istraživanje i razvoj, vol. 15, br. 1-2, str. 23-30
Milovanović, J., Trajanović, M. (2007) Primene rapid prototyping tehnologija u medicini. Facta universitatis - series: Mechanical Engineering, vol. 5, br. 1, str. 79-85
Stoll, H.W. (1988) Design for manufacturing. Manufacture Engineering, Jan., 67-73
Stoll, H.W. (1988) Design for manufacture. in: Tool and manufacturing handbook, SME Press, vol. 5, str. 13-1-13-32
Trajanović, M. (2002) Possibilities of using rapid prototyping technologies in tyre mold manufacturing. in: Conference pneumatics (II), Belgrade
Trajanović, M., Grujović, N., Milovanović, J., Milivojević, V. (2008) Računarski podržane brze proizvodne tehnologije. Kragujevac: Mašinski fakultet
Yang, Z., Wysk, R., Joshi, S., Frank, M., Petrzelka, J. (2009) Conventional machining methods for rapid prototyping and direct manufacturing. Int. J. Rapid Manufacturing, vol. 1, br. 1
 

About

article language: Serbian
document type: Review Paper
published in SCIndeks: 11/10/2011

Related records

FU: Mechan Engineering (2003)
Feature models in virtual product development
Manić Miodrag, et al.

IMK-14 Istraživanje i razvoj (2009)
Rapid prototyping technologies and materials for implant manufacturing
Milovanović Jelena, et al.

IMK-14 Istraživanje i razvoj (2010)
Rapid prototyping technology in investment casting of metal implants
Rajić Aleksandar, et al.

show all [8]