ACS Applied Computer Science

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The aim of this paper is to detail the creation of a large tapered roller bearing model with flexible body cages in the Adams program suite for subsequent dynamic analysis and to obtain information about kinematic and dynamic relationships of steel and plastic cages under various operating conditions. The bearing model was made to closely resemble its real-life counterpart, which allows us to estimate load conditions, dynamic conditions of individual bearing parts and interactions between them.

  • APA 6th style
Kohár, R., Brumerčík, F., Lukáč, M., & Nieoczym, A. (2016). Numerical analysis of roller bearing. Applied Computer Science, 12(1), 5-16. 
  • Chicago style
Kohár, Róbert, Frantisek Brumerčík, Michal Lukáč, and Aleksander Nieoczym. "Numerical Analysis of Roller Bearing." Applied Computer Science 12, no. 1 (2016): 5-16.
  • IEEE style
R. Kohár, F. Brumerčík, M. Lukáč, and A. Nieoczym, "Numerical analysis of roller bearing," Applied Computer Science, vol. 12, no. 1, pp. 5-16, 2016.
  • Vancouver style
Kohár R, Brumerčík F, Lukáč M, Nieoczym A. Numerical analysis of roller bearing. Applied Computer Science. 2016;12(1):5-16.