A.H. Mahmoudi scite author profile

Mechanical strain relief techniques for estimating the magnitude of residual stress work by measuring strains or displacements when part of the component is machined away. The underlying assumption is that such strain or displacement changes result from elastic unloading. Unfortunately, in components containing high levels of residual stress, elasticplastic unloading may well occur, particularly when the residual stresses are highly triaxial. This paper examines the performance of one mechanical strain relief technique particularly suitable for large section components, the deep hole drilling (DHD) technique. The magnitude of error is calculated for different magnitudes of residual stress and can be substantial for residual stress states close to yield. A modification to the technique is described to allow large magnitudes of residual stress to be measured correctly. The new technique is validated using the case of a quenched cylinder where use of the standard DHD technique leads to unacceptable error. The measured residual stresses using the new technique are compared with the results obtained using the neutron diffraction technique and are shown to be in excellent agreement.

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Tensile behavior of friction stir welded AA 6061-T4 aluminum alloy joints

Heidarzadeh

et al. 2012

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Parameter determination of Chaboche kinematic hardening model using a multi objective Genetic Algorithm

Mahmoudi

Pezeshki

Badnava

2011

Computational Materials Science

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A comprehensive experimental and numerical study on redistribution of residual stresses by shot peening

et al. 2016

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A.H. Mahmoudi

Effect of friction stir welding (FSW) parameters on strain hardening behavior of pure copper joints

A New Procedure to Measure Near Yield Residual Stresses Using the Deep Hole Drilling Technique

Tensile behavior of friction stir welded AA 6061-T4 aluminum alloy joints

Parameter determination of Chaboche kinematic hardening model using a multi objective Genetic Algorithm

A comprehensive experimental and numerical study on redistribution of residual stresses by shot peening

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