Anton D. Raath scite author profile

a b s t r a c tIt is common practice in the automotive industry to employ multi-parameter strain-life methods, in combination with dynamic finite element analyses, based on very extensive measurement exercises, to conduct analytical fatigue life assessments, which is then verified through intensive durability testing. The expense and complexity of this approach makes its application impractical for low volume ''special" vehicles. In this paper, a fatigue equivalent static load (FESL) methodology for the numerical durability assessment of heavy vehicle structures is presented, where fatigue load requirements are derived from measurements as quasi-static g-loads, the responses to which are considered as stress ranges applied a said number of times during the lifetime of the structure. The application of the method is demonstrated using two case studies, namely a road tanker and a load haul dumper. In both cases, it was possible to obtain adequately accurate fatigue life prediction results, using simplified loading, static finite element analyses and a stress-life approach to fatigue damage calculations, with material properties available in design codes.

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A new time domain parametric dynamic system identification approach to multiaxial service load simulation testing in components

Raath

1997

International Journal of Fatigue

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Time-Domain Reconstruction of Dynamic Multiaxial Responses in Aeronautical Fatigue Testing

Eksteen

Raath

2001

Journal of Aircraft

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The use of probability theory in fracture mechanics—A case study

Wannenburg

Klintworth

Raath

1992

International Journal of Pressure Vessels and Piping

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Anton D. Raath

A time domain approach to load reconstruction for durability testing

Application of a fatigue equivalent static load methodology for the numerical durability assessment of heavy vehicle structures

A new time domain parametric dynamic system identification approach to multiaxial service load simulation testing in components

Time-Domain Reconstruction of Dynamic Multiaxial Responses in Aeronautical Fatigue Testing

The use of probability theory in fracture mechanics—A case study

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