3D Analysis of Fatigue Fracture Morphology Generated by Combined Bending - Torsion.

3D Analysis of Fatigue Fracture Morphology Generated by Combined Bending - Torsion.

Paper in proceedings (conference paper)

The paper deals with quantitative analysis of morphology of the fracture surfaces generated under pure torsion, pure bending, and mixed bending-torsion loading. Characteristics of roughness and fractality are studied in dependence on loading conditions, profile orientation and distance from the specimen surface, respectively. Moreover, the mismatch between matching profiles is analysed for all investigated specimens. As expected, the surface roughness increases with increasing distance from the specimen surface. A strong increase in the mismatch with increasing torsion component can be considered to be the most important result of the analysis.

The paper deals with quantitative analysis of morphology of the fracture surfaces generated under pure torsion, pure bending, and mixed bending-torsion loading. Characteristics of roughness and fractality are studied in dependence on loading conditions, profile orientation and distance from the specimen surface, respectively. Moreover, the mismatch between matching profiles is analysed for all investigated specimens. As expected, the surface roughness increases with increasing distance from the specimen surface. A strong increase in the mismatch with increasing torsion component can be considered to be the most important result of the analysis.

morphology; fracture surface; mixed bending-torsion loading; roughness; fractality;

morphology; fracture surface; mixed bending-torsion loading; roughness; fractality;

SLÁMEČKA, K., POKLUDA, J.

2011

01.08.2004

Stockholm

Advanced Fracture Mechanics for Life and Safety Assesments (ECF15)

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