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Models for Estimating the Autofrettage Pressure and Residual Stresses in Walls of Type 2 Pressure Vessels
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Abstract
Autofrettage is a manufacturing process used during fabrication of Type 2 pressure vessels designed for usage at high pressures to enhance the fatigue life. The process locks high compressive residual stresses in the vessel’s liner wall that reduce the maximum and the mean stress during service loading. To achieve a consistent residual stress profile across the wall of the vessel, the choice of autofrettage pressure is critical. Several finite element analyses runs were conducted to estimate the correct autofrettage pressure that is a function of the yield strength of the liner material, the wall thickness, and the outside diameter of the liner for a wrap thickness of 17.06 mm (48 wire layers). From the finite element analyses results, models were developed to estimate the correct autofrettage pressure and the residual stress distribution across the liner wall as a function of the yield strength of the liner material, the wall thickness, and the outside diameter of the liner.
American Society of Mechanical Engineers
Title: Models for Estimating the Autofrettage Pressure and Residual Stresses in Walls of Type 2 Pressure Vessels
Description:
Abstract
Autofrettage is a manufacturing process used during fabrication of Type 2 pressure vessels designed for usage at high pressures to enhance the fatigue life.
The process locks high compressive residual stresses in the vessel’s liner wall that reduce the maximum and the mean stress during service loading.
To achieve a consistent residual stress profile across the wall of the vessel, the choice of autofrettage pressure is critical.
Several finite element analyses runs were conducted to estimate the correct autofrettage pressure that is a function of the yield strength of the liner material, the wall thickness, and the outside diameter of the liner for a wrap thickness of 17.
06 mm (48 wire layers).
From the finite element analyses results, models were developed to estimate the correct autofrettage pressure and the residual stress distribution across the liner wall as a function of the yield strength of the liner material, the wall thickness, and the outside diameter of the liner.
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