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ERGONOMİK TASARIM VE ÜRETİMDE HIZLI PROTOTİPLEME TEKNOLOJİSİ

Year 2015, Volume: 3 Issue: 3, 199 - 204, 24.12.2015

Abstract

Ürün tasarımında insan faktörü dikkat edilmesi gereken bir konudur. Tasarlanan ürünün ergonomik gereklilikleri karşılaması gerekmektedir. Tasarım sürecinde bu ergonomik gerekliliklerin test edilebilmesi için prototiplerin yapılmasına ihtiyaç vardır. Prototip yapımı uzun ve meşakatli bir süreçtir. Hızlı prototip teknolojisinin gelişmesiyle bu konuda çok önemli ilerlemeler kaydedilmiştir. Bu çalışmada bu hızlı prototip teknolojilerinden ve hızlı prototip hakkında yapılan çalışmalardan bahsedilmiştir.

References

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  • Atzeni, E., Salmi, A., 2015. Study on unsupported overhangs of AlSi10Mg parts produced by direct metal lazer sintering. Journal of Manufacturing Processes.
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  • Ikeo, N., Ishimoto, T., Nakano, T., 2015. Novel powder/solid composites possessing low Young’s modulus and tunable energy absorption capacity, fabricated by electron beam melting, for biomedical applications. Jounral of Alloys and Compounds, 639, 336-340.
  • Jaiganesh, M., Christopher, A.A., Mugilan, E., 2014. Manufacturing of PMMA Cam Shaft by Rapid Prototyping. 12th Global Congress on Manufacturing and Management GCMM, 21272135.
  • Jain, P., Kuthe, A.M., 2013. Feasibility study of manufacturing using rapid prototyping: FDM approach. The Manufacturing Engineering Society International Conference, MESIC, 4-11.
  • Kan, B., 2006. Hızlı prototipleme sistemleri ve uygulama esasları. Sakarya Üni. F. Bil. Ens. Y.L. tezi.
  • Liao, Y.S., Chiu, L.C., Chiu, Y.Y., 2003. A new approach of online waste removal process for laminated objet manufacturing (LOM). Journal of Materials Processing Technology, 140, 136-140.
  • Mahindru D.V., Mahindru, P., 2013. Review of rapid prototyping-technology for the future. Global Journals of Computer Science and Technology, 13, ıssue 4.
  • Melchels, F.P.W., Grijpma, D.W., Feijen, J., 2008. Properties of Porous structures prepared by stereolithograpy using a polylactide resin. Journal of Controlled Release, 123, e71-e73.
  • Murr, L.E., Gaytan, S.M., Ramirez, D.A., Martinez, E., Hernandez, J., Amato, K.N., Shindo, P.W., Medina, F. R., Wicker, R.B., 2012. Metal fabrication by additive manufacturing using lazer and electron beam melting Technologies. Journal of Materials Science & Technology, 28, 1-14.
  • Pham, D.T., Gault, R.S., 1998. A comparison of rapid prototyping technologies. International Journal of Machine Tools & Manufacture, 38, 1257-1287.
  • Simchi, A., Petzoldt, F., Pohl, H., 2003. On the development of direct metal lazer sintering for rapid tooling. Journal of Materials Processing Technology, 141, 319-328.
  • Zang, T., Qu, Y., Jia, L., Xu, A., 2012. Virtual 3D ink-jet printing for heterogeneous object. Advanced Materials Research, 538-541, 2868-2871.
  • Zhou, J., Lu, Z., Miao, K., Ji, Z., Dong, Y., Li, D., 2015. Quick fabrication of aeronautical complicated structural parts based on stereolithography. Propulsion and Power Research, 4, 63-71.
  • Zhu, W., Yan, C., Shi, Y., Wen, S., Liu, J., Shi, Y., 2015. Investigation into mechanical and microstructural properties of polypropylene manufactured by selective laser sintering in comparison with injection molding counterparts. Materials & Design, 82, 37-45
Year 2015, Volume: 3 Issue: 3, 199 - 204, 24.12.2015

Abstract

References

  • Ahn, D., Kweon, J., Choi, J., Lee, S., 2012. Quantification of surface roughness of parts processed by laminated object manufacturing. Journal of Materials Processing Technology, 212, 339-346.
  • Atzeni, E., Salmi, A., 2015. Study on unsupported overhangs of AlSi10Mg parts produced by direct metal lazer sintering. Journal of Manufacturing Processes.
  • Bai, P., Cheng, J., Liu, B., Wang, W., 2006. Numerical simulation of temperature field during selective lazer sintering of polymer-coated molybdenum powder. Transactions of Nonferrous Metal Society of China, 16, s603-s607.
  • Barucca, G., Santecchia, E., Majni, G., Girardin, E., Bassoli, E., Denti, L., Gatto, A., Iuliano, L., Moskalewicz, T., Mengucci, P., 2015. Structural characterization of biomedical Co-Cr-Mo component produced by direct metal lazer sintering. Materials Science and Engineering, 48, 263-269.
  • Carneiro, O.S., Silva, A.F., Gomes, R., 2015. Fused deposition modeling with polypropylene. Materials & Design, 83, 768-776.
  • Chiu, Y.Y., Liao, Y.S., Hou, C.C., 2003. Automatic fabrication for bridged laminated object manufacturing (LOM) process. Journol of Materials Processing Technology, 140, 179-184.
  • Chua, C.K., Leong, K.F., Lım, C.S., 2003. Rapid Prototyping: Principles and Applications. 2nd ed. in World Scientific, World Scientific Publishing Co. Pte. Ltd. Singapore.
  • Coffy, K.M., 2014. Microstructure and chemistry evolution of direct metal lazer sintered 15-5 ph stainless steel. M.S. Thesis, Dept. Mater. Sci. and Computer Sci. Eng., Univ. of Central Florida, USA.
  • Colton, J. S., 2015. Rapid Prototyping, [Online]. Available: http://wwwold.me.gatech.edu/jonathan.colton/me4210/rpm. pdf
  • Çelik, İ., Karakoç, F., Çakır M.C., Duysak, A., 2013. Hızlı prototipleme teknolojileri ve uygulamaları. Dumlupınar Üniversitesi Fen Bilimleri Enstitüsü Dergisi, s. 31, ISSN 1302-3055.
  • Ermurat, M., 2002. Hızlı prototip ve üretim teknolojilerinin incelenmesi. Gebze Y. Tekn. Ens. F. Bil. Ens. Y.L. tezi.
  • Gibson, I., Rosen, D.W., Stucker, B., 2010. Additive Manufacturing Technologies. Springer, Dordrecht Heidelberg London New York.
  • Horn, T., 2015. Material development for electron beam melting [Online]. Available: http://camal.ncsu.edu/wpcontent/uploads/2013/10/Tim-Horn- 2013CAMAL.pdf
  • Ikeo, N., Ishimoto, T., Nakano, T., 2015. Novel powder/solid composites possessing low Young’s modulus and tunable energy absorption capacity, fabricated by electron beam melting, for biomedical applications. Jounral of Alloys and Compounds, 639, 336-340.
  • Jaiganesh, M., Christopher, A.A., Mugilan, E., 2014. Manufacturing of PMMA Cam Shaft by Rapid Prototyping. 12th Global Congress on Manufacturing and Management GCMM, 21272135.
  • Jain, P., Kuthe, A.M., 2013. Feasibility study of manufacturing using rapid prototyping: FDM approach. The Manufacturing Engineering Society International Conference, MESIC, 4-11.
  • Kan, B., 2006. Hızlı prototipleme sistemleri ve uygulama esasları. Sakarya Üni. F. Bil. Ens. Y.L. tezi.
  • Liao, Y.S., Chiu, L.C., Chiu, Y.Y., 2003. A new approach of online waste removal process for laminated objet manufacturing (LOM). Journal of Materials Processing Technology, 140, 136-140.
  • Mahindru D.V., Mahindru, P., 2013. Review of rapid prototyping-technology for the future. Global Journals of Computer Science and Technology, 13, ıssue 4.
  • Melchels, F.P.W., Grijpma, D.W., Feijen, J., 2008. Properties of Porous structures prepared by stereolithograpy using a polylactide resin. Journal of Controlled Release, 123, e71-e73.
  • Murr, L.E., Gaytan, S.M., Ramirez, D.A., Martinez, E., Hernandez, J., Amato, K.N., Shindo, P.W., Medina, F. R., Wicker, R.B., 2012. Metal fabrication by additive manufacturing using lazer and electron beam melting Technologies. Journal of Materials Science & Technology, 28, 1-14.
  • Pham, D.T., Gault, R.S., 1998. A comparison of rapid prototyping technologies. International Journal of Machine Tools & Manufacture, 38, 1257-1287.
  • Simchi, A., Petzoldt, F., Pohl, H., 2003. On the development of direct metal lazer sintering for rapid tooling. Journal of Materials Processing Technology, 141, 319-328.
  • Zang, T., Qu, Y., Jia, L., Xu, A., 2012. Virtual 3D ink-jet printing for heterogeneous object. Advanced Materials Research, 538-541, 2868-2871.
  • Zhou, J., Lu, Z., Miao, K., Ji, Z., Dong, Y., Li, D., 2015. Quick fabrication of aeronautical complicated structural parts based on stereolithography. Propulsion and Power Research, 4, 63-71.
  • Zhu, W., Yan, C., Shi, Y., Wen, S., Liu, J., Shi, Y., 2015. Investigation into mechanical and microstructural properties of polypropylene manufactured by selective laser sintering in comparison with injection molding counterparts. Materials & Design, 82, 37-45
There are 26 citations in total.

Details

Primary Language Turkish
Journal Section SI:ERGONOMI2105
Authors

Hasan Baş

Fatih Yapıcı This is me

Publication Date December 24, 2015
Submission Date October 19, 2015
Published in Issue Year 2015 Volume: 3 Issue: 3

Cite

APA Baş, H., & Yapıcı, F. (2015). ERGONOMİK TASARIM VE ÜRETİMDE HIZLI PROTOTİPLEME TEKNOLOJİSİ. Mühendislik Bilimleri Ve Tasarım Dergisi, 3(3), 199-204.