Araştırma Makalesi
BibTex RIS Kaynak Göster

Dönel Makina Parçalarının Eksenel Simetrik Unsurlarla Modellenmesi

Yıl 1998, Cilt: 3 Sayı: 4, 174 - 183, 01.09.1998

Öz

Geleneksel
BDT sistemlerinde düşük düzeyli elemanlar ile yapıla modellerin fonksiyonel
bilgi içermemesi, BDT/BDO sisteleri arası boşluğunun kapatılmasını
engellemekteydi. Bu durumun saptanması ile başlayan unsur bant: tasarım
alanındaki araştırmalar, günümüzde de sürmektedir. Unsur; bir parçadaki
geometrik, topolojik ve fonksiyonel elemanların; tasarım analiz ve üretimde en
uygun kullanılacak şekilde yüksek seviyeli bir gruplandırılması" olarak
tanımlanabilir. Unsur yaklaşımı; tasarım niyetini koruma, tasarımdan otomatik
üretime geçme ve zeki tasarım sistemi geliştirme gibi bazı avantajlar
sağlanmaktadır. Bu makalede,-unsur tabanlı modelleme konusunda yürütülen bir
araştırma çalışması özetlenmekte ve bu amaçla geliştirilen bir yazılım paketi
tanıtılmaktadır. Bu paket program; unsur kütüphanesi, basit bir dil söz dizimi,
kullanıcı arabirimi ile analiz ve isterim araçlarından oluşmaktadır. Bu paket
programı kullanan bir sarımcı, eksenel simetrik dönel parçaların unsur tabanlı
modellerini kolayca oluşturabilmekte ve geliştirebilmektedir.

Kaynakça

  • 1. Sing, N.„Systems Approach to Com ı t Integrated Design and Manufacting ,e.Troha n Wiley and Sons, International Ed., 1996.
  • 2. Sutherland, I.„SKETCHPAD: Man.)-. Machine Communication System, Ph.D. Thesıs, MIT, January 1963.
  • 3. Finger, S. ve Dixon, J.R., A Review of Research in Mechanical Engineering Design, Part II: Representations, Analysis and Design for Life Cycic, Research in Eng. Design, 1 (1989) 3, 121-137.
  • 4. Fu, Z., Geometrik Reasoning for Feature-Based Design Using A Graph Grammar' Phı D Thesis, University of Leeds, December 1991.
  • 5. Fu, Z. ve dc Pcnnington, A., Geomctric Reasoning Base(' on Graph Grammar Parsing Proc. of the 1991 ASME Design Automatiopnt.Cİ9O 9 pnfierence, Miami, USA, v.2, pp.13-22, 22-25 Sc
  • 6. I-DEAS Product Catalog, SDRC, W()r Id Headquarters, 2000 Eastman Drive, Milford, Ohio 45150, USA, May 1996.
  • 7. Çelik, S., Unsur Tabanlı Makina Tavarımı, Yüksek Lisans Tezi, E.O. Makina Mühendis.lıgi Bölümü, Kayseri, Ağustos 1996.
  • 8. Ji, Q. ve Marefat, M.M., Machine Interpretation of CAD Data for Manufacturing ; (1997) 3' `2614ca_lons, ACM Modelling Tumed Computing Survey:, 24(1997)3,264-311.
  • 9. Guerra, A.R.O. ve Hindtıja, S , 311. Comonents with Non-axisymm. ctric Features, Computer-Aided Design (CAD), 29 (1997) 5, 343-359.
  • 10. Unger, M.B. vc Ray, S.R., Feature-based Process Planning in the AMRF, Proc. of the 1988 ASME Int. Computers in Eng. Conference and Exhibition, v.3, pp.563-569, 1988.
  • 11. Shah, J.J. ve Mantyla, M., Paraınetric and Feature-Based CADICAM: Concepts, Techniques and Applications, John Wiley, New York, 1995.
  • 12. Shah, J.J., Nau, D.S. Mantyla, M., (eds.), Advances in Feature Based Manufacturing, Elsevier, Norıh Holland, 1994.
  • 13. Han, J.H. ve Requicha, A.A.G., Integration of Feature-Based Design and Feature Recognition, CAD, 29 (1997) 5, 393-403.
  • 14. Nezis, K. ve Vosniakos, G., Recognizing 2.5D Shape Features Using a Neural Network and Heuristics, CAD, 29 (1997) 7, 523-539.
  • 15. van Emmerik, M.J.G.M., Interactive Design of Parameterized 3D Models by Direct Manipulation, Delft University Press, The Netherlands, 1990.
  • 16. Zhu, G., Jian, G., Weigand, H. ve Ji Zhou, J.Y., A Product Definition System for Concurrent Design, Int. Conference on Engineering Design ICED'93, The Hague, Netherlands Congress Center, Netherlands, August 17-19, 1993, Proc. of ICED'93, v.3, pp.1602-1609, Ed. by N.F.M. Roozenburg, HEURISTA 1993.
  • 17. Chen, C.S. ve Wu, J., Product Modelling and Data Exchange, Concurrent Engineering: Methodology and Applications, P. Gu and A. Kusiak (Editors), Advances in Industrial Eng., 19, pp.299-313, ELSEVIER Science Pub., 1993.
  • 18. Ko, H. vc Park, M.W., Integration Methodology for Feature-Based Modeling and Recognition, Advances in Engineering Software, 20 (1994) 2-3, 75-89.
  • 19. Perremans, P., Feature-based Description of Modular Fixturing Elements: The Key to an Export System for the Automatic Design of the Physical Fixture, Advances in Eng. Software, 25 (1996) 1, 19-27.
  • 20. Munns, A., Li, Y.B. ve Wang, X., Rule-based Feature Extraction from CSG Representations and an Application in Construction, Int. Conference on Intelligent Manufacturing, SPIE, pp.269-276, Wuhan, China, 1995.
  • 21. Ismail, H.S., Chen, S.T. ve Hon, K.K.B., Feature-based Design of Progressive Press Tools, Int. J. of Machine Tools and Manufacture, 36 (1996) 3, 367-378.
  • 22. Mantripragada, R., Kinzel, G. ve Altan, T., Computer-aided Engineering Systeın for Feature-based Design of Box-type Sheet Metal Paris, J. of Materials Processing Tech., 57 (1996) 3-4, 241-248.
  • 23. Sec Toh, K.H., Loh, H.T., Nee, A.Y.C. ve 'Le, K.S., Feature-based Flat Pattern Development System for Sheet Metal Paris, J. of Mat. Proc. Technology, 48 (1995) 1-4, 89-95.
  • 14. Kim, D.W., Kishinami, T. Kang, Y.J. ve Saito, K., Rahim Based Modeling of a Welded Plate Construction, J. of Mat. Proc. Technology, 44 (1994) 3-4, 257-264.
  • 25. Stokes, V.K., Feature-based Methodology for Mechanical Design with long-fiber Filled Injection-molded Thermoplastic Composites, Proc. of the 52nd Anma! Technical Conference ANTEC 94, Part 3, pp.3171-3175, San Francisco, CA, USA, Soc. of Plastics Eng.: Brookfield, CT, USA, 1994.
  • 26. Bottoni, P., Cugini, U., Mussio, P., Papetti, C. ve Protti, M., System for Form-feature-based Interpretation ol' Technical Drawings, Machine Vision and Applications, 8 (1995) 5, 326-335.
  • 27. Suharitdamrong, V. ve Motavalli, S., Feature-Based Model Generation for Reverse Engineering, Industrial Engineering Research-Conference Proc., pp.183-189, IIE, Norcross, GA, USA, 24-25 May 1995.
  • 28. Mc Hugh, J.A., Algorithmic Graph Theory, Precentice-Hall Int., Inc edition,1990.
  • 29. Sinanoğlu, C., Bilgisayar Destekli Montaj, Yüksek Lisans Tezi, E.Ü. Makina Mühendisliği Bölümü, Kayseri, Ağustos 1996.
Yıl 1998, Cilt: 3 Sayı: 4, 174 - 183, 01.09.1998

Öz

Kaynakça

  • 1. Sing, N.„Systems Approach to Com ı t Integrated Design and Manufacting ,e.Troha n Wiley and Sons, International Ed., 1996.
  • 2. Sutherland, I.„SKETCHPAD: Man.)-. Machine Communication System, Ph.D. Thesıs, MIT, January 1963.
  • 3. Finger, S. ve Dixon, J.R., A Review of Research in Mechanical Engineering Design, Part II: Representations, Analysis and Design for Life Cycic, Research in Eng. Design, 1 (1989) 3, 121-137.
  • 4. Fu, Z., Geometrik Reasoning for Feature-Based Design Using A Graph Grammar' Phı D Thesis, University of Leeds, December 1991.
  • 5. Fu, Z. ve dc Pcnnington, A., Geomctric Reasoning Base(' on Graph Grammar Parsing Proc. of the 1991 ASME Design Automatiopnt.Cİ9O 9 pnfierence, Miami, USA, v.2, pp.13-22, 22-25 Sc
  • 6. I-DEAS Product Catalog, SDRC, W()r Id Headquarters, 2000 Eastman Drive, Milford, Ohio 45150, USA, May 1996.
  • 7. Çelik, S., Unsur Tabanlı Makina Tavarımı, Yüksek Lisans Tezi, E.O. Makina Mühendis.lıgi Bölümü, Kayseri, Ağustos 1996.
  • 8. Ji, Q. ve Marefat, M.M., Machine Interpretation of CAD Data for Manufacturing ; (1997) 3' `2614ca_lons, ACM Modelling Tumed Computing Survey:, 24(1997)3,264-311.
  • 9. Guerra, A.R.O. ve Hindtıja, S , 311. Comonents with Non-axisymm. ctric Features, Computer-Aided Design (CAD), 29 (1997) 5, 343-359.
  • 10. Unger, M.B. vc Ray, S.R., Feature-based Process Planning in the AMRF, Proc. of the 1988 ASME Int. Computers in Eng. Conference and Exhibition, v.3, pp.563-569, 1988.
  • 11. Shah, J.J. ve Mantyla, M., Paraınetric and Feature-Based CADICAM: Concepts, Techniques and Applications, John Wiley, New York, 1995.
  • 12. Shah, J.J., Nau, D.S. Mantyla, M., (eds.), Advances in Feature Based Manufacturing, Elsevier, Norıh Holland, 1994.
  • 13. Han, J.H. ve Requicha, A.A.G., Integration of Feature-Based Design and Feature Recognition, CAD, 29 (1997) 5, 393-403.
  • 14. Nezis, K. ve Vosniakos, G., Recognizing 2.5D Shape Features Using a Neural Network and Heuristics, CAD, 29 (1997) 7, 523-539.
  • 15. van Emmerik, M.J.G.M., Interactive Design of Parameterized 3D Models by Direct Manipulation, Delft University Press, The Netherlands, 1990.
  • 16. Zhu, G., Jian, G., Weigand, H. ve Ji Zhou, J.Y., A Product Definition System for Concurrent Design, Int. Conference on Engineering Design ICED'93, The Hague, Netherlands Congress Center, Netherlands, August 17-19, 1993, Proc. of ICED'93, v.3, pp.1602-1609, Ed. by N.F.M. Roozenburg, HEURISTA 1993.
  • 17. Chen, C.S. ve Wu, J., Product Modelling and Data Exchange, Concurrent Engineering: Methodology and Applications, P. Gu and A. Kusiak (Editors), Advances in Industrial Eng., 19, pp.299-313, ELSEVIER Science Pub., 1993.
  • 18. Ko, H. vc Park, M.W., Integration Methodology for Feature-Based Modeling and Recognition, Advances in Engineering Software, 20 (1994) 2-3, 75-89.
  • 19. Perremans, P., Feature-based Description of Modular Fixturing Elements: The Key to an Export System for the Automatic Design of the Physical Fixture, Advances in Eng. Software, 25 (1996) 1, 19-27.
  • 20. Munns, A., Li, Y.B. ve Wang, X., Rule-based Feature Extraction from CSG Representations and an Application in Construction, Int. Conference on Intelligent Manufacturing, SPIE, pp.269-276, Wuhan, China, 1995.
  • 21. Ismail, H.S., Chen, S.T. ve Hon, K.K.B., Feature-based Design of Progressive Press Tools, Int. J. of Machine Tools and Manufacture, 36 (1996) 3, 367-378.
  • 22. Mantripragada, R., Kinzel, G. ve Altan, T., Computer-aided Engineering Systeın for Feature-based Design of Box-type Sheet Metal Paris, J. of Materials Processing Tech., 57 (1996) 3-4, 241-248.
  • 23. Sec Toh, K.H., Loh, H.T., Nee, A.Y.C. ve 'Le, K.S., Feature-based Flat Pattern Development System for Sheet Metal Paris, J. of Mat. Proc. Technology, 48 (1995) 1-4, 89-95.
  • 14. Kim, D.W., Kishinami, T. Kang, Y.J. ve Saito, K., Rahim Based Modeling of a Welded Plate Construction, J. of Mat. Proc. Technology, 44 (1994) 3-4, 257-264.
  • 25. Stokes, V.K., Feature-based Methodology for Mechanical Design with long-fiber Filled Injection-molded Thermoplastic Composites, Proc. of the 52nd Anma! Technical Conference ANTEC 94, Part 3, pp.3171-3175, San Francisco, CA, USA, Soc. of Plastics Eng.: Brookfield, CT, USA, 1994.
  • 26. Bottoni, P., Cugini, U., Mussio, P., Papetti, C. ve Protti, M., System for Form-feature-based Interpretation ol' Technical Drawings, Machine Vision and Applications, 8 (1995) 5, 326-335.
  • 27. Suharitdamrong, V. ve Motavalli, S., Feature-Based Model Generation for Reverse Engineering, Industrial Engineering Research-Conference Proc., pp.183-189, IIE, Norcross, GA, USA, 24-25 May 1995.
  • 28. Mc Hugh, J.A., Algorithmic Graph Theory, Precentice-Hall Int., Inc edition,1990.
  • 29. Sinanoğlu, C., Bilgisayar Destekli Montaj, Yüksek Lisans Tezi, E.Ü. Makina Mühendisliği Bölümü, Kayseri, Ağustos 1996.
Toplam 29 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Araştırma, Geliştirme ve Uygulama Makaleleri
Yazarlar

Suat Çelik Bu kişi benim

H. Rıza Börklü Bu kişi benim

Yayımlanma Tarihi 1 Eylül 1998
Gönderilme Tarihi 5 Temmuz 1998
Yayımlandığı Sayı Yıl 1998 Cilt: 3 Sayı: 4

Kaynak Göster

Vancouver Çelik S, Börklü HR. Dönel Makina Parçalarının Eksenel Simetrik Unsurlarla Modellenmesi. MATİM. 1998;3(4):174-83.