Experimental Investigation of the Tension and Compression Creep Behavior of Alumina-Spinel Refractories at High Temperatures

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Experimental Investigation of the Tension and Compression Creep Behavior of Alumina-Spinel Refractories at High Temperatures. / Teixeira, Lucas; Samadi, Soheil; Gillibert, Jean et al.
In: Ceramics, Vol. 3.2020, No. 3, 22.09.2020, p. 372-383.

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@article{4ea175ee3d03494a8e9703b19fc80099,
title = "Experimental Investigation of the Tension and Compression Creep Behavior of Alumina-Spinel Refractories at High Temperatures",
abstract = "Refractory materials are subjected to thermomechanical loads during their working life, and consequent creep strain and stress relaxation are often observed. In this work, the asymmetric high temperature primary and secondary creep behavior of a material used in the working lining of steel ladles is characterized, using uniaxial tension and compression creep tests and an inverse identification procedure to calculate the parameters of a Norton-Bailey based law. The experimental creep curves are presented, as well as the curves resulting from the identified parameters, and a statistical analysis is made to evaluate the confidence of the results.",
keywords = "refractories, creep, parameter identification",
author = "Lucas Teixeira and Soheil Samadi and Jean Gillibert and Shengli Jin and Thomas Sayet and Dietmar Gruber and Eric Blond",
year = "2020",
month = sep,
day = "22",
doi = "10.3390/ceramics3030033",
language = "English",
volume = "3.2020",
pages = "372--383",
journal = "Ceramics",
issn = "2571-6131",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "3",

}

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TY - JOUR

T1 - Experimental Investigation of the Tension and Compression Creep Behavior of Alumina-Spinel Refractories at High Temperatures

AU - Teixeira, Lucas

AU - Samadi, Soheil

AU - Gillibert, Jean

AU - Jin, Shengli

AU - Sayet, Thomas

AU - Gruber, Dietmar

AU - Blond, Eric

PY - 2020/9/22

Y1 - 2020/9/22

N2 - Refractory materials are subjected to thermomechanical loads during their working life, and consequent creep strain and stress relaxation are often observed. In this work, the asymmetric high temperature primary and secondary creep behavior of a material used in the working lining of steel ladles is characterized, using uniaxial tension and compression creep tests and an inverse identification procedure to calculate the parameters of a Norton-Bailey based law. The experimental creep curves are presented, as well as the curves resulting from the identified parameters, and a statistical analysis is made to evaluate the confidence of the results.

AB - Refractory materials are subjected to thermomechanical loads during their working life, and consequent creep strain and stress relaxation are often observed. In this work, the asymmetric high temperature primary and secondary creep behavior of a material used in the working lining of steel ladles is characterized, using uniaxial tension and compression creep tests and an inverse identification procedure to calculate the parameters of a Norton-Bailey based law. The experimental creep curves are presented, as well as the curves resulting from the identified parameters, and a statistical analysis is made to evaluate the confidence of the results.

KW - refractories

KW - creep

KW - parameter identification

U2 - 10.3390/ceramics3030033

DO - 10.3390/ceramics3030033

M3 - Article

VL - 3.2020

SP - 372

EP - 383

JO - Ceramics

JF - Ceramics

SN - 2571-6131

IS - 3

ER -