M.E. Karabin scite author profile

Predictions of distortion and residual stress for rectangular bars, quenched on one surface, are compared with experimental measurements. The heat flow is unidirectional, and the dominant stress component acts along the length of the bars. Thermocouples measure the transient temperature distribution, and displacement transducers monitor the distortion of the bars into circular arcs. The thermal history inferred from an inverse heat transfer calculation drives the mechanical stress and deformation analysis. The numerical analyses demonstrate the sensitivity of the quench distortion to the thermal boundary conditions, the thermophysical properties and the constitutive model. Agreement between the predicted and measured distortion is only qualitative. The predicted residual stress field compares very well with the residual stress inferred from layer removal techniques.

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Macro- and micro-surface engineering to improve hot roll bonding of aluminum plate and sheet

Liu

Sheu

et al. 2008

Materials Science and Engineering: A

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Numerical and experimental study of the cold expansion process in 7085 plate using a modified split sleeve

Karabin

Barlat

Schultz

2007

Journal of Materials Processing Technology

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M.E. Karabin

Linear transfomation-based anisotropic yield functions

Prediction of six or eight ears in a drawn cup based on a new anisotropic yield function

Distortion and Residual Stress in Quenched Aluminum Bars

Macro- and micro-surface engineering to improve hot roll bonding of aluminum plate and sheet

Numerical and experimental study of the cold expansion process in 7085 plate using a modified split sleeve

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