R.C. Wimpory scite author profile

The most critical stage in the heat treatment of high strength aluminium alloys is the rapid cooling necessary to form a supersaturated solid solution. A disadvantage of quenching is that the thermal gradients can be sufficient to cause inhomogeneous plastic deformation which in turn leads to the development of large residual stresses. Two 215 mm thick rectilinear forgings have been made from 7000 series alloys with widely different quench sensitivity to determine if solute loss in the form of precipitation during quenching can significantly affect residual stress magnitudes. The forgings were heat treated and immersion quenched using cold water to produce large magnitude residual stresses. The through thickness residual stresses were measured by neutron diffraction and incremental deep hole drilling. The distribution of residual stresses was found to be similar for both alloys varying from highly triaxial and tensile in the interior, to a state of biaxial compression in the surface. The 7010 forging exhibited larger tensile stresses in the interior. The microstructural variation from surface to centre for both forgings was determined using optical and transmission electron microscopy. These observations were used to confirm the origin of the hardness variation measured through the forging thickness. When the microstructural changes were accounted for in the through thickness lattice parameter, the residual stresses in the two forgings were found to be very similar. Solute loss in the 7075 forging appeared to have no significant effect on the residual stress magnitudes when compared to 7010.

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Non-destructive measurement of residual stress by neutron diffraction

Webster

Wimpory

2001

Journal of Materials Processing Technology

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Measurement of residual stresses in T-plate weldments

Wimpory

May

O’Dowd

et al. 2003

The Journal of Strain Analysis for Engineering Design

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Tensile welding residual stresses can, in combination with operating stresses, lead to premature failure of components by fatigue and/or fracture. It is therefore important that welding residual stresses are accounted for in design and assessment of engineering components and structures. In this work residual stress distributions, obtained from measurements on a number of ferritic steel T-plate weldments using the neutron diffraction technique and the deep-hole drilling method, are presented. It has been found that the residual stress distributions for three different plate sizes are of similar shape when distances are normalized by plate thickness. It has also been found that the conservatisms in residual stress pro®les recommended in current fracture mechanics-based safety assessment procedures can be signi®cantÐof yield strength magnitude in certain cases. Based on the data presented here a new, less-conservative transverse residual stress upper bound distribution is proposed for the T-plate weldment geometry. The extent of the plastic zone developed during the welding process has also been estimated by use of Vickers hardness and neutron diffraction measurements. It has been found that the measured plastic zone sizes are considerably smaller than those predicted by existing methods. The implications of the use of the plastic zone size as an indicator of the residual stress distributions are discussed.

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NET TG1: Residual stress assessment by neutron diffraction and finite element modeling on a single bead weld on a steel plate

Ohms¹,

Wimpory²,

Katsareas³

et al. 2009

International Journal of Pressure Vessels and Piping

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Residual stress in weldments

Webster

Wimpory

2001

J. of Neutron Res.

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R.C. Wimpory

The influence of quench sensitivity on residual stresses in the aluminium alloys 7010 and 7075

Non-destructive measurement of residual stress by neutron diffraction

Measurement of residual stresses in T-plate weldments

NET TG1: Residual stress assessment by neutron diffraction and finite element modeling on a single bead weld on a steel plate

Residual stress in weldments

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