Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
This paper presents the results of comparative analysis of modeling accuracy the freeform surface constructed by using a variety of algorithms for surface modeling. Also determined the accuracy of mapping the theoretical freeform surface described by mathematical equation. To model surface objects used: SolidWorks 2012, CATIA v5 and Geomagic Studio 12. During the design process of CAD models were used: profile curves, fitting parametric surface and polygonal mesh. To assess the accuracy of the CAD models used Geomagic Qualify 12. On the basis of analyse defined the scope of application of each modeling techniques depending on the nature of the constructed object.
Czasopismo
Rocznik
Tom
Strony
110--114
Opis fizyczny
Bibliogr. 15 poz., rys., wykr.
Twórcy
autor
- Faculty of Mechanical Engineering, Department of Production Engineering, Bialystok University of Technology
Bibliografia
- 1. Gawlik J., Wójcik A. (2003), Modeling and assessing the accuracy of the freeform surfaces in the wmp-cad-cam system (in Polish), Prace Naukowe Instytutu Technologii Maszyn i Automatyzacji Politechniki Wrocławskiej, Vol. 84, 173-182.
- 2. Hoffmann CM., Joan-Arinyo R. (2002), Parametric modeling, In: Farin G, Hoschek J,Kim MS (editors), Handbook of CAGD, Elsevier, 519-541.
- 3. Hylewski D. (2009), Representation of curves in CAD systems – Bezier curves (in Polish), Prace Naukowe Katedry Budowy Maszyn Politechniki Śląskiej, Vol. 1, 273-282.
- 4. Hylewski D. (2012), Attempt to verify the method for selecting the parameters of digitizing the freeform surface for the purpose of reverse engineering in Catia v5 system (in Polish), Inżynieria Maszyn, Vol.3, 128-146.
- 5. Kruth JP., Kersterns A. (1998), Reverse engineering modeling of free-form surface from point clouds subject to boundary condition, Journal of Materials Processing Technology, Vol. 76, 120-127.
- 6. Nyirenda PJ., Mulbagal M., Bronsvoort WF. (2006), Definition of freeform surface feature classes, Computer-Aided Design and Applications, Vol. 3(5), 665-674.
- 7. Paulos J., Nyirenda., Willem F. Bronsvoort. (2008), Numeric and curve parameters for freeform surface feature models, ComputerAided Design, Vol. 40 (8), 839-851.
- 8. Piegl L. (1989), Modifying of rational B-spline. Part 1: Curves, Computer Aided Design, Vol. 21, 509-518.
- 9. Piegl L., Tiller W. (1997), The NURBS book, 2nd ed., Springer, New York.
- 10. Putz B. (2004), From G0 to G3 – class of smoothness in the design and styling surface (in Polish), Mechanik, Vol. 11, 759-764.
- 11. Savio E., De Chiffre L. (2007), Metrology of freeform shaped parts, CIRP Annals - Manufacturing Technology, Vol. 56 (2), 810-835.
- 12. Van den Berg E., Bronsvoort W. F., Vergeest J. S. M. (2002), Freeform feature modeling: concepts and prospecs, Computers in Industry, Vol. 49 (2), 217-233.
- 13. Van den Berg E., Van der Meiden H. A., Bronsvoort W. F. (2003), Specification of freeform features. In: Elber G, Shapiro V (editors), Proceedings of the eighth ACM symposium on solid modeling and applications, New York: ACM Press, 56-64.
- 14. Werner A. (2012), Assessment of accuracy in the process of reverse engineering the spatial object (in Polish), Pomiary, Automatyka, Robotyka, Vol. 5, 86-90.
- 15. Wróbel I. (2010), Reverse engineering as a method of creating digital models of objects with complex shapes (in Polish), Mechanik, Vol. 3, 212–214.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ca116561-eae0-45e0-a88c-c88ed65d28be