Publication detail

Crack Propagation Analysis of Compression Loaded Rolling Elements

DLHÝ, P. PODUŠKA, J. BERER, M. GOSCH, A. SLÁVIK, O. NÁHLÍK, L. HUTAŘ, P.

Original Title

Crack Propagation Analysis of Compression Loaded Rolling Elements

Type

journal article in Web of Science

Language

English

Original Abstract

The problem of crack propagation from internal defects in thermoplastic cylindrical bearing elements is addressed in this paper. The crack propagation in these elements takes place under mixed-mode conditions-i.e., all three possible loading modes (tensile opening mode I and shear opening modes II and III) of the crack are combined together. Moreover, their mutual relation changes during the rotation of the element. The dependency of the stress intensity factors on the crack length was described by general parametric equations. The model was then modified by adding a void to simulate the presence of a manufacturing defect. It was found that the influence of the void on the stress intensity factor values is quite high, but it fades with crack propagating further from the void. The effect of the friction between the crack faces was find negligible on stress intensity factor values. The results presented in this paper can be directly used for the calculation of bearing elements lifetime without complicated finite element simulations.

Keywords

fracture mechanics; crack propagation; stress intensity factor; thermoplastic material; bearing element; finite element method

Authors

DLHÝ, P.; PODUŠKA, J.; BERER, M.; GOSCH, A.; SLÁVIK, O.; NÁHLÍK, L.; HUTAŘ, P.

Released

1. 5. 2021

Publisher

MDPI

Location

BASEL

ISBN

1996-1944

Periodical

Materials

Year of study

14

Number

10

State

Swiss Confederation

Pages from

2656-1

Pages to

2656-24

Pages count

24

URL

Full text in the Digital Library