Laboratory for Dynamics of Machines and Structures 
Application of thermoelasticity in the frequency-domain multiaxial vibration-fatigue criterion
 J. Šonc, K. Zaletelj and J. Slavič
Mechanical Systems and Signal Processing, 2024

download pdf   https://doi.org/10.1016/j.ymssp.2024.112002

More research on: optical methods, vibration fatigue,
Abstract
In vibration fatigue, high-spatial-density experimental damage identification is hard to conduct. Fatigue damage is typically localized (in time and space) and loads can change direction with time. Thermoelasticity studies the interaction between temperature changes and elastic deformations in materials: minute changes in temperature can be related to the sum of the normal stresses, providing information about the multiaxial stress state. This research discusses the application of thermoelasticity in multiaxial criterion resulting in the equivalent uniaxial load. In this research, the thermoelasticity-based equivalent uniaxial load is related to the established theory on vibration-fatigue damage estimation in the spectral domain. The introduced thermoelasticity-based criterion is compared to the Equivalent von Mises stress criterion. Building on theoretical, numerical, and experimental research, this work examines the limitations of thermoelasticity-based criterion. Where the surface shear stresses are significantly smaller than the normal stresses, the numerical and experimental research shows promising results. Based on the introduced thermoelastic multiaxial criterion and with the recent progress in thermal imaging and signal processing, new possibilities for a close-to-real-time full-field fatigue-damage estimation open up.
Authors

Researcher

Jaša Šonc, PhD Student

  Ladisk, Faculty of Mechanical Engineering, University of Ljubljana
  jasa.sonc@fs.uni-lj.si
  +386 1 4771 230
jasasonc    

Assistant

Klemen Zaletelj, PhD

  Ladisk, Faculty of Mechanical Engineering, University of Ljubljana
  klemen.zaletelj@fs.uni-lj.si
  +386 1 4771 228
klemengit    
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Professor

Janko Slavič, PhD

  Ladisk, Faculty of Mechanical Engineering, University of Ljubljana
  janko.slavic@fs.uni-lj.si
  +386 1 4771 226
jankoslavic     jankoslavic    
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