Ductile fracture and lifetime prediction of structural materials and components under high-temperature creep conditions |
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Authors: | V P Golub H J Christ J Byrne |
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Affiliation: | a Department of Creep Mechanics, Institute of Mechanics, Kyiv, Ukraine b Chair of Materials Science and Testing, University of Siegen, Siegen, Germany c Department of Mechanical Engineering, University of Portsmouth, Portsmouth, UK |
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Abstract: | The problem of long-term strength prediction of structural materials under uniaxial and biaxial creep conditions, which give rise to ductile fracture, is considered. A new approach to long-term fracture modelling based on constitutive equations of the “isochronous creep theory” and criteria of ductile fracture is suggested. The change in the momentary tangential modulus specifies the materials rheological behaviour and a value tending to zero is assumed as the ductile fracture criterion. Using the model the times to fracture of rods, beams and thin-walled tubes made of high-temperature and heat-resistant materials are estimated and they show good agreement with experimental data. |
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