Analysis of Stress Relaxation and Creep Curves for a Log‐Normal Distribution of Relaxation Times

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A procedure to determine the characteristic parameters of a log‐normal distribution of relaxation times, both for stress relaxation and creep tests, is presented. The method is based on the use of either the normalized stress relaxation or creep functions and their first derivatives. Furthermore, th...

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Detalles Bibliográficos
Autor principal: Povolo, Francisco
Otros Autores: Hermida, E.B
Formato: Capítulo de libro
Lenguaje:Inglés
Publicado: 1989
Acceso en línea:Registro en Scopus
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Registro en la Biblioteca Digital
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central Dr. Luis F. Leloir (FCEN) de Universidad de Buenos Aires
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100 1 |a Povolo, Francisco 
245 1 0 |a Analysis of Stress Relaxation and Creep Curves for a Log‐Normal Distribution of Relaxation Times 
260 |c 1989 
270 1 0 |m Povolo, F.; Consejo Nacional de Investigaciones Cientificas y Técnicas, Buenos Aires and Departamento Materiales, Comisión Nacional de Energia Atómica, Buenos Aires, Argentina 
504 |a Nowick, A.S., Berry, B.S., (1972) Anelastic Relaxation in Crystalline Solids, , Academic Press, New York 
504 |a Ng, D., Aklonis, J.J., (1985) Relaxations in Complex Systems, p. 53. , K. L. Ngai, G. B. Wright, Office of Naval Research, Arlington 
504 |a Povolo, F., ; Nowick, A.S., Berry, B.S., Lognormal Distribution Function for Describing Anelastic and Other Relaxation Processes I. Theory and Numerical Computations (1961) IBM Journal of Research and Development, 5, p. 297 
504 |a Kê, T.S., (1947) Phys. Rev., 71, p. 533 
504 |a Tobolsky, A.V., Stern, M.D., (1946) J. chem. Phys., 14, p. 93 
504 |a Feltham, P., (1955) Brit. J. appl. Phys., 6, p. 26 
504 |a Kubat, J., Rigdahl, M., (1986) Failure of Plastics, p. 60. , W. Brostow, R. D. Corneliussen, Hansen Publishers, Munich 
504 |a Povolo, F., Hermida, E.B., 
506 |2 openaire  |e Política editorial 
520 3 |a A procedure to determine the characteristic parameters of a log‐normal distribution of relaxation times, both for stress relaxation and creep tests, is presented. The method is based on the use of either the normalized stress relaxation or creep functions and their first derivatives. Furthermore, the limiting stress or strain can be obtained directly from the experimental data. Finally, the procedure developed is applied to actual stress relaxation curves reported for aluminum and polysulphide rubber and the results are compared with those obtained by approximate methods, based on the use of the error function. Copyright © 1989 WILEY‐VCH Verlag GmbH & Co. KGaA  |l eng 
593 |a Facultad de Ciencias Exactas Y Naturales, Departamento de Fisica, Universidad de Buenos Aires, Argentina 
593 |a Consejo Nacional de Investigaciones Cientificas y Técnicas, Buenos Aires and Departamento Materiales, Comisión Nacional de Energia Atómica, Buenos Aires, Argentina 
700 1 |a Hermida, E.B. 
773 0 |d 1989  |g v. 151  |h pp. 71-83  |k n. 1  |p Phys. Status Solidi B Basic Res.  |x 03701972  |t physica status solidi (b) 
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856 4 0 |u https://doi.org/10.1002/pssb.2221510109  |y DOI 
856 4 0 |u https://hdl.handle.net/20.500.12110/paper_03701972_v151_n1_p71_Povolo  |y Handle 
856 4 0 |u https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03701972_v151_n1_p71_Povolo  |y Registro en la Biblioteca Digital 
961 |a paper_03701972_v151_n1_p71_Povolo  |b paper  |c PE 
962 |a info:eu-repo/semantics/article  |a info:ar-repo/semantics/artículo  |b info:eu-repo/semantics/publishedVersion 
999 |c 72951 

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