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Analysis of Tool Load Influence on the Locations and Value of Curvilinear Profiles Geometric Deviations

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The manufacture of components on numerically controlled machines is very rapidly developing technique and it is used for production of various components in many industrial sectors. More frequently technologists/CNC programmers have to faced with tool path programming for machining of these elements. Predicting critical places on the machined parts, creates a lot of problems, even for the most experienced programmers. In this paper was presented the influence of tool load variability for finishing operations on value and localization of curvilinear profiles geometric deviations.
Słowa kluczowe
Rocznik
Strony
72--81
Opis fizyczny
Bibliogr. 13 poz., il., wykr.
Twórcy
autor
  • Białystok University of Technology. Department of Production Engineering, Faculty of Mechanical Engineering
  • Białystok University of Technology. Department of Production Engineering, Faculty of Mechanical Engineering
  • Białystok University of Technology. Department of Production Engineering, Faculty of Mechanical Engineering
Bibliografia
  • Tsai, С., Liao, Y., 2008, Prediction of cutting forces in ball-end milling by means of geometric analysis, Materials Processing Technology, 205, 24-33.
  • Raksiri, C., Parnichkun, M., 2004, Geometric and force errors compensation in a 3-axis CNC milling machine, Machine Tools & Manufacture, 44, 1283-1291.
  • Yaldiz, S., Unsacar, F., Saglam, H., Isik, H., 2007, Design, development and testing of a four-component milling dynamometer for the measurement of cutting force and torque, Mechanical Systems and Signal Processing, 21,1499-1511.
  • Li, S., Zhang, Y., Zhang, G., 1997, A study of pre-compensation for thermal errors of NC machine tools, Machine Tools and Manufacture, 37, No 12, 1715-1719.
  • Ramesh, R., Mannan, M., Poo, A., 2000, Error compensation in machine tools - a review, Part II: thermal errors, Machine Tools & Manufacture, 40, 1257-1284.
  • Yang, M., Lee, J., 1998, Measurement and prediction of thermal errors of a CNC machining center using two spherical balls, Materials Processing Technology, 180-189.
  • Fines, J., Agah, A., 2008, Machine tool positioning error compensation using artificial neural networks, Engineering Applications of Artificial Intelligence, 21, 1013-1026.
  • Gokkaya, H., Nalbant, M., 2007, The effects of cutting tool geometry and processing parameters on the surface roughness of AISI 1030 steel, Materials and Design, 28, 717-721.
  • Lei, W., Sung, M., 2008, NURBS-based fast geometric error compensation for CNC machine tools, Machine Tools & Manufacture, 48, 307-319.
  • Schwenke, H., Knapp, W., Haitjema, H., Weckenmann, A., Schmitt, R., Delbressine, F., 2008, Geometric error measurement and compensation of machines, CIRP Annals - Manufacturing Technology, 57, 660-675.
  • Uddin M., Ibaraki S., Matsubara A., Matsushita, Т., 3009, Prediction and compensation of machining geometric errors of five-axis machining centers with kinematic errors, Precision Engineering, 33, 194-201.
  • Jang, D., Choi, Y., Kim, H., Hsiao, A., 1996, Study of the correlation between surface roughness and cutting vibrations to develop an on line roughness measuring technique in hard turning, Machine Tools & Manufacture, 36, No 4, 453-464.
  • Schutzer, K., Helleno, A., Pereira, S., 2006, The influence of the manufacturing strategy on the production of molds and dies, Materials Processing Technology, 172-1776
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c951fbde-3c93-4a8f-8e2f-af3f791206f0
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