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HIZLI PROTOTİP OLUŞTURMADA KARŞILAŞILAN PROBLEMLER VE ÇÖZÜM ÖNERİLERİ

Year 2016, Volume: 4 Issue: 4, 309 - 319, 21.12.2016

Hüseyin Rıza Börklü A.kıvanç Yıldırım Hüseyin Kürşad Sezer

Abstract

Hızlı Prototip Oluşturma (HPO, Rapid Prototyping - RP), Bilgisayar Destekli Tasarım (CAD) verisinden ince tabakalar şeklinde fiziki nesneler üretmeyi amaçlar. Böylece oluşan gerçek modeller çeşitli iş ve işlemlerde kullanılabilir (çeşitli testler, boyut kontrolü, döküm model, müşteriye teklif/sunu, prototip ve hatta gerçek parça vb.). Son yıllarda bu alanda birçok teknoloji ve yöntem geliştirilmiştir. Bunlar arasında: Stereolitografi (optik üretim, foto katılaştırma vb. de denebilir), Seçici lazer sinterleme, Ergiyik birikimli modelleme, 3B baskı (3 Boyutlu baskı), Katmanlı nesne imalatı, Çok püskürtmeli modelleme, Lazerle yapılan net biçimlendirme vb. gösterilebilir. Bu teknoloji ve yöntemler ile kolay, hızlı, ucuz ve otomatik modeller geliştirilebilir. Ancak, uygulama esnasında ise bazı özel ve genel problemlerle karşılaşılabilir. Bu tür problemler arasında; karmaşık ve büyük parçaları modelleme, demontaj, ölçü tamlığı, yüzey hassasiyeti, işlem hızı vb. gibileri gösterilebilir. Bu makalede hızlı prototip oluşturma esnasında karşılaşılan özel ve genel problemler ele alınacak ve çözüm yolları tanıtılacaktır.

Keywords

Hızlı prototip oluşturma 3B Baskı Tersine mühendislik

References

  • Kaynaklar (References)
  • Raja, V. and Fernands, K.J. (Editors), Reverse Engineering – An Industrial Perspective, Springer, London, UK, 2008.
  • Gibson, I., Rosen, D. and Stucker, B., Additive Manufacturing Technologies – 3D Printing, Rapid Prototyping, and Direct Digital Manufacturing, Springer, 2nd ed., London, UK, 2015.
  • Wong K.W. and Hernandez, A., A Review of Additive Manufacturing, ISRN Mechanical Engineering, Volume 2012, Article ID 208760, 10 pages, 2012.
  • http://3dprintingindustry.com/3d-printing-basics-free-beginners-guide/history/
  • https://en.wikipedia.org/wiki/Rapid_prototyping
  • https://www.nsf.gov/about/history/nsf0050/manufacturing/rapid.htm
  • http://mmadou.eng.uci.edu/class_mae165.html
  • http://www.sciencedirect.com/science/article/pii/S0890695597001375
  • http://www.sciencedirect.com/science/article/pii/S0007850607632405
  • Dolenc, A., An Overview of Rapid Prototyping Technologies in Manufacturing, Helsinki University of Technology, 1994 (source unknown).
  • http://www.powershow.com/view/11e4b4-ZjljY/Rapid_Prototyping_by_Layered_Manufacturing _powerpoint_ppt_presentation
  • https://www3.nd.edu/~rroeder/ame50542/slides/rapidprototyping.pdf
  • http://www.protec3d.de/3d-drucken/
  • http://www.docfoc.com/rapid-prototyping-ime-545-case-study-contents-what-is-rapid-prototyping-rp
  • http://www.naun.org/main/NAUN/mcs/16-591.pdf
  • http://www.wseas.us/e-library/conferences/2012/Kos/CIRSYS/CIRSYS-42.pdf
  • http://www.wzl.rwth-aachen.de/en/f786439a4c53fb78c125709f0055702f/v11a_rapidprototyping.pdf
  • http://www.phillipsmedisize.com/sites/default/files/whitepaper/Prototyping%20White%20Paper.pdf
  • Bandyopadhyay, A. and Bose, S. (Editors), Additive Manufacturing, CRC Press, USA, 2015.
  • Hausman, K.K. and Horne, R., 3D Printers for Dummies, John Wiley & Sons, Inc., Int. ed., 2014.
  • Gebhardt, A., Understanding Additive Manufacturing – Rapid Prototyping, Rapid Tooling, Rapid Manufacturing, Hanser, USA, 2012.
  • Evans, M.A., The Integration of Rapid Prototyping Within Industrial Design Practice, PhD Thesis, Loughborough University, UK, 2002.
  • Vaezi, M., Seitz, H. and Yang, S., A review on 3D micro-additive manufacturing technologies, Int. J. of Adv. Man. Tech., Vol. 67, pp. 1721-1754, 2013.
  • Herderick, E., Additive Manufacturing of Metals: A Review, Mat. Sci. & Tec, pp.1413-1425, 2011.
  • Thompson, S.M., Bian, L., Shamsaei, N. and Yadollahi, A., An overview of Direct Laser Deposition for additive manufacturing; Part I: Transport phenomena, modelling and diagnostics, Additive Manufacturing, pp. 36-62, 2015.
  • Thompson, S.M. et al., An overview of Direct Laser Deposition for additive manufacturing;Part II: Mechanical behavior, process parameter optimization andcontrol, Additive Man., pp. 12-35, 2015.
  • Kawata, S., Sun, H., Tanaka, T., Takada, K., Finer features for functional microdevices. Nature 412:697-698
  • Feng W, Fuh J, Wong Y (2006) Development of a drop-on-demand micro dispensing system. Mater Sci Forum 505–507:25–30
  • Tay B, Edirisinghe MJ (2001) Investigation of some phenomena occurring during continuous ink-jet printing of ceramics. J Mater Res 16(2):373–384
  • Liu Q, Orme M (2001) High precision solder droplet printing technology and the state-of-theart. J Mater Process Technol 115:271–283
  • Priest JW, Smith C, DuBois P (1997) Liquid metal jetting for printing metal parts. In: Solid freeform fabrication symposium, Austin, TX, 11–13 Aug, pp 1–9
  • Ainsley C, Reis N, Derby B (2002) Freeform fabrication by controlled droplet deposition of powder filled melts. J Mater Sci 37:3155–3161
  • http://www.stratasys.com/
  • Kawata S, Sun H, Tanaka T, Takada K (2001) Finer features for functional microdevices. Nature 412:697–698

Year 2016, Volume: 4 Issue: 4, 309 - 319, 21.12.2016

Hüseyin Rıza Börklü A.kıvanç Yıldırım Hüseyin Kürşad Sezer

Abstract

References

  • Kaynaklar (References)
  • Raja, V. and Fernands, K.J. (Editors), Reverse Engineering – An Industrial Perspective, Springer, London, UK, 2008.
  • Gibson, I., Rosen, D. and Stucker, B., Additive Manufacturing Technologies – 3D Printing, Rapid Prototyping, and Direct Digital Manufacturing, Springer, 2nd ed., London, UK, 2015.
  • Wong K.W. and Hernandez, A., A Review of Additive Manufacturing, ISRN Mechanical Engineering, Volume 2012, Article ID 208760, 10 pages, 2012.
  • http://3dprintingindustry.com/3d-printing-basics-free-beginners-guide/history/
  • https://en.wikipedia.org/wiki/Rapid_prototyping
  • https://www.nsf.gov/about/history/nsf0050/manufacturing/rapid.htm
  • http://mmadou.eng.uci.edu/class_mae165.html
  • http://www.sciencedirect.com/science/article/pii/S0890695597001375
  • http://www.sciencedirect.com/science/article/pii/S0007850607632405
  • Dolenc, A., An Overview of Rapid Prototyping Technologies in Manufacturing, Helsinki University of Technology, 1994 (source unknown).
  • http://www.powershow.com/view/11e4b4-ZjljY/Rapid_Prototyping_by_Layered_Manufacturing _powerpoint_ppt_presentation
  • https://www3.nd.edu/~rroeder/ame50542/slides/rapidprototyping.pdf
  • http://www.protec3d.de/3d-drucken/
  • http://www.docfoc.com/rapid-prototyping-ime-545-case-study-contents-what-is-rapid-prototyping-rp
  • http://www.naun.org/main/NAUN/mcs/16-591.pdf
  • http://www.wseas.us/e-library/conferences/2012/Kos/CIRSYS/CIRSYS-42.pdf
  • http://www.wzl.rwth-aachen.de/en/f786439a4c53fb78c125709f0055702f/v11a_rapidprototyping.pdf
  • http://www.phillipsmedisize.com/sites/default/files/whitepaper/Prototyping%20White%20Paper.pdf
  • Bandyopadhyay, A. and Bose, S. (Editors), Additive Manufacturing, CRC Press, USA, 2015.
  • Hausman, K.K. and Horne, R., 3D Printers for Dummies, John Wiley & Sons, Inc., Int. ed., 2014.
  • Gebhardt, A., Understanding Additive Manufacturing – Rapid Prototyping, Rapid Tooling, Rapid Manufacturing, Hanser, USA, 2012.
  • Evans, M.A., The Integration of Rapid Prototyping Within Industrial Design Practice, PhD Thesis, Loughborough University, UK, 2002.
  • Vaezi, M., Seitz, H. and Yang, S., A review on 3D micro-additive manufacturing technologies, Int. J. of Adv. Man. Tech., Vol. 67, pp. 1721-1754, 2013.
  • Herderick, E., Additive Manufacturing of Metals: A Review, Mat. Sci. & Tec, pp.1413-1425, 2011.
  • Thompson, S.M., Bian, L., Shamsaei, N. and Yadollahi, A., An overview of Direct Laser Deposition for additive manufacturing; Part I: Transport phenomena, modelling and diagnostics, Additive Manufacturing, pp. 36-62, 2015.
  • Thompson, S.M. et al., An overview of Direct Laser Deposition for additive manufacturing;Part II: Mechanical behavior, process parameter optimization andcontrol, Additive Man., pp. 12-35, 2015.
  • Kawata, S., Sun, H., Tanaka, T., Takada, K., Finer features for functional microdevices. Nature 412:697-698
  • Feng W, Fuh J, Wong Y (2006) Development of a drop-on-demand micro dispensing system. Mater Sci Forum 505–507:25–30
  • Tay B, Edirisinghe MJ (2001) Investigation of some phenomena occurring during continuous ink-jet printing of ceramics. J Mater Res 16(2):373–384
  • Liu Q, Orme M (2001) High precision solder droplet printing technology and the state-of-theart. J Mater Process Technol 115:271–283
  • Priest JW, Smith C, DuBois P (1997) Liquid metal jetting for printing metal parts. In: Solid freeform fabrication symposium, Austin, TX, 11–13 Aug, pp 1–9
  • Ainsley C, Reis N, Derby B (2002) Freeform fabrication by controlled droplet deposition of powder filled melts. J Mater Sci 37:3155–3161
  • http://www.stratasys.com/
  • Kawata S, Sun H, Tanaka T, Takada K (2001) Finer features for functional microdevices. Nature 412:697–698
There are 35 citations in total.

Details

Journal Section Original Articles
Authors

Hüseyin Rıza Börklü

A.kıvanç Yıldırım This is me

Hüseyin Kürşad Sezer

Publication Date December 21, 2016
Submission Date August 23, 2016
Published in Issue Year 2016 Volume: 4 Issue: 4

Cite

APA Börklü, H. R., Yıldırım, A., & Sezer, H. K. (2016). HIZLI PROTOTİP OLUŞTURMADA KARŞILAŞILAN PROBLEMLER VE ÇÖZÜM ÖNERİLERİ. Gazi University Journal of Science Part C: Design and Technology, 4(4), 309-319.

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