Research Article
TERSİNE MÜHENDİSLİK TASARIMI: ENDÜSTRİYEL TASARIM MÜHENDİSLİĞİ LİSANS ÖĞRENCİLERİ İÇİN TEKNİK SEÇMELİ DERS
Abstract
Gazi Üniversitesi Endüstriyel Tasarım Mühendisliği (ETM)
öğrencileri, ilk 3 yıl içerisinde inovatif ürün tasarımı için bilgisayar
destekli tasarım (CAD) uygulamaları konusunda oldukça deneyim kazanmaktadır. CAD
modelleme ve tasarımında yetenek kazanan üçüncü sınıf öğrencilerinin zorunlu
dokuz kredilik CAD derslerinin ötesinde, en son 3 boyutlu (3B) yazıcı ve
Tersine Mühendislik Tasarımı teknolojilerinde yeni bilgiler kazanmaları için
lisans düzeyinde verilen teknik bir seçmeli ders geliştirilmiştir. Bu ders,
öğrencileri yeni bir ürün geliştirme için tasarım süreçlerinde daha önce hiç
kullanmadıkları tersine mühendislik metodolojisi ve teknikleri ile tasarım
seçeneği ile tanıştırmaktadır. Ders, geometrik gelişmiş yüzey modelleme CAD stratejileri,
hızlı prototipleme için eklemeli imalat yöntemleri (3B baskı) ve mevcut
ürünlerin farklı tersine mühendislik yöntemlerini de kapsamaktadır. Buna ek
olarak, bu teknoloji ile ilgili donanımın edinilmesi ile hem öğrencilerin diğer
derslerdeki projelerine hem de fakültedeki bölümlere yarar sağlanmıştır. Aynı
zamanda, bu donanım bölümün yanı sıra yerel endüstrinin araştırma ve geliştirme
faaliyetleri için bir kaynak haline gelmiştir. Bu makale, dersin kapsamı ve
amacını, tersine mühendislik veri analizi, kullanılan donanımlar, diğer fakülte
ve yerel endüstriye katkıları ve edinilen tecrübelerin aktarımı gibi konuları
detaylandırarak örnek öğrenci projeleriyle açıklanmaktadır.
References
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- [16] Lee KH, Woo H, Suk T. Point Data Reduction Using 3D Grids. Int J Adv Manufact Technol. 2001;18(3):201–10.
- [17] Lai JY, Ueng WD, Yao CY. Registration and data merging for multiple sets of scan data. Adv Manufact Technol. 1999;15:54–63.
- [18] Kim HK, Lee SC. A method for approximate NURBS curve compatibility based on multiple curve refitting. Comput Aided Des. 2000;32:237–52.
- [19] Yuan X, Zhenrong X, Haibin W. Research on integrated reverse engineering technology for forming sheet metal. 2001;112(2-3):153-156.
- [20] Bagcı E. Reverse engineering applications for recovery of broken or worn parts and re-manufacturing: Three case studies. Advances in Engineering Software. 2009;40:407–418.
- [21] Zhang Y. Research into the engineering application of reverse engineering technology. J Mater Process Technol. 2003;139(1–3):472–5.
- [22] Raja V, Fernandes KJ. Reverse Engineering: An Industrial Perspective, Springer-Verlag. London. 2008;13-7.
- [23] Sert E. Üç faz kaydırma metodu temelli yapılandırılmış ışık sistemi (PhD Thesis). [Three phase shifting method-based structured light system] [Thesis in Turkish] 2013. http://dspace.trakya.edu.tr/jspui/handle/1/2567
Year 2018,
Volume: 2 Issue: 3, 1 - 11, 30.12.2018
Abstract
References
- [1] Ma W. NURBS-based CAD modeling from measured points of physical models. Ph.D. Thesis, Katholieke Universiteit of Leuven, 1994, p. 1-9.
- [2] Chen LC, Lin GCI. Reverse engineering in the design of turbine blades - a case study in applying the MAMDP. Robotics and Computer Integrated Manufacturing. 2000;16:161-167
- [3] Wang G, Zheng B, Li X, Houkes Z. Modeling and calibration of the laser beam scanning triangulation measurement system. Robot Auton Syst. 2002;40:267–77.
- [4] Xinmin L, Zhongqin L, Tian H, Ziping Z. A study of a reverse engineering system based on vision sensor for free-form surfaces. Comput Ind Eng. 2001;40:215–27.
- [5] Zhang G, Wei Z. A novel calibration approach to 3D vision inspection. Opt Laser Technol. 2002;34:373–80.
- [6] Son S, Park H, Lee KH. Automated laser scanning system for reverse engineering and inspection. Int J Mach Tools Manufact. 2002;42:889–97.
- [7] Chang RS, Sheu JY, Lin CH, Liu HC. Analysis of CCD moire pattern for microrange measurements using the wavelet transform. Opt Laser Technol. 2003;35:43–7.
- [8] Liu Zhenkai, Wang Lihui, Lu Bingheng. Integrating cross-sectional imaging based reverse engineering with rapid prototyping. Comput Ind. 2006;57(2):131–40.
- [9] Peng Q, Loftus M. Using image processing based on neural networks in reverse engineering. Int J Mach Tools Manufact. 2001;41:625–40.
- [10] Chan VH, Bradley C, Vickers GW. A multi-sensor approach to automating coordinate measuring machine-based reverse engineering. Comput Ind. 2001;44:105–15.
- [11] Zexiao X, Jianguo W, Qiumei Z. Complete 3D measurement in reverse engineering using a multi-probe system. Int J Mach Tools Manufact. 2005;45(12–13):1474–86.
- [12] Li L, Schemenauer N, Peng X, Zeng Y, Gu P. A reverse engineering system for rapid manufacturing of complex objects. Robot Comput Integr Manufact. 2002;18:53–67.
- [13] Zhongwei Y. Direct integration of reverse engineering and rapid prototyping based on the properties of NURBS or B-spline. Precis Eng. 2005;28(3): 293–301.
- [14] Son S, Kim S, Lee K. Path planning of multi-patched freeform surfaces for laser scanning. Int J Adv Manufact Technol. 2003;22:424–35.
- [15] Budak I. Development of a system for reverse engineering based design of complex shapes with emphasis on data-point pre-processing. In: Proceedings of 11th international CIRP life cycle engineering seminar product life cycle– quality management issues.. 2004:223–9.
- [16] Lee KH, Woo H, Suk T. Point Data Reduction Using 3D Grids. Int J Adv Manufact Technol. 2001;18(3):201–10.
- [17] Lai JY, Ueng WD, Yao CY. Registration and data merging for multiple sets of scan data. Adv Manufact Technol. 1999;15:54–63.
- [18] Kim HK, Lee SC. A method for approximate NURBS curve compatibility based on multiple curve refitting. Comput Aided Des. 2000;32:237–52.
- [19] Yuan X, Zhenrong X, Haibin W. Research on integrated reverse engineering technology for forming sheet metal. 2001;112(2-3):153-156.
- [20] Bagcı E. Reverse engineering applications for recovery of broken or worn parts and re-manufacturing: Three case studies. Advances in Engineering Software. 2009;40:407–418.
- [21] Zhang Y. Research into the engineering application of reverse engineering technology. J Mater Process Technol. 2003;139(1–3):472–5.
- [22] Raja V, Fernandes KJ. Reverse Engineering: An Industrial Perspective, Springer-Verlag. London. 2008;13-7.
- [23] Sert E. Üç faz kaydırma metodu temelli yapılandırılmış ışık sistemi (PhD Thesis). [Three phase shifting method-based structured light system] [Thesis in Turkish] 2013. http://dspace.trakya.edu.tr/jspui/handle/1/2567
There are 23 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | December 30, 2018 |
| Submission Date | May 16, 2018 |
| Published in Issue | Year 2018 Volume: 2 Issue: 3 |
Cite
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