Anais do Congresso Anual da ABM


ISSN 2594-5327

69° Congresso Anual da ABM - Internacional vol. 69, num.69 (2014)


Título

EQUIVALENCE BETWEEN HOT TENSILE AND CREEP DATA IN ALUMINUM ALLOY AL7475-T7351. PART 1: RELATIONS INVOLVING STRESS, STRAIN RATE AND TEMPERATURE

EQUIVALENCE BETWEEN HOT TENSILE AND CREEP DATA IN ALUMINUM ALLOY AL7475-T7351. PART 1: RELATIONS INVOLVING STRESS, STRAIN RATE AND TEMPERATURE

DOI

10.5151/1516-392X-24905

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Resumo

Hot tensile data were correlated with creep data, in Aluminum Alloy AL7475-T7351, as part of a broader research program, aiming at the validation of a methodology that proposes an equivalence between the two kind of results, for metallic materials in general. The methodology is based on a criterion that establishes correlation among the following parameters from each test: the strain rate, ultimate tensile stress, and time to reach the ultimate tensile stress, in tensile tests, are equivalent respectively to the: minimum strain rate, applied stress and rupture time, in creep tests, for a given test temperature. The present material was tested at 3 temperatures: 133,166 and 193ºC, using 3 nominal tensile strain rates in the hot tensile tests: 3.2x10-6, 1.6x10-4 and 6.4x10-3 s-1 and 9 applied stress levels in the creep tests, varying from 140 to 400 MPa. The conversion of the hot tensile data to creep-like data allowed performing the analysis of all the results together according to the traditional creep relations proposed by different authors, namely: Norton, Arrhenius, Zener-Hollomon and Monkman-Grant, with the determination of the corresponding parameters in each case. The equivalence between hot tensile and creep data is also confirmed for this aluminum alloy.

 

Hot tensile data were correlated with creep data, in Aluminum Alloy AL7475-T7351, as part of a broader research program, aiming at the validation of a methodology that proposes an equivalence between the two kind of results, for metallic materials in general. The methodology is based on a criterion that establishes correlation among the following parameters from each test: the strain rate, ultimate tensile stress, and time to reach the ultimate tensile stress, in tensile tests, are equivalent respectively to the: minimum strain rate, applied stress and rupture time, in creep tests, for a given test temperature. The present material was tested at 3 temperatures: 133,166 and 193ºC, using 3 nominal tensile strain rates in the hot tensile tests: 3.2x10-6, 1.6x10-4 and 6.4x10-3 s-1 and 9 applied stress levels in the creep tests, varying from 140 to 400 MPa. The conversion of the hot tensile data to creep-like data allowed performing the analysis of all the results together according to the traditional creep relations proposed by different authors, namely: Norton, Arrhenius, Zener-Hollomon and Monkman-Grant, with the determination of the corresponding parameters in each case. The equivalence between hot tensile and creep data is also confirmed for this aluminum alloy.

Palavras-chave

Hot tensile data; Creep data; Alloy AL7475-T7351; Creep parameters

Hot tensile data; Creep data; Alloy AL7475-T7351; Creep parameters

Como citar

Diego José Inforzato; Gilmar Ferreira Batalha; Erika Fernanda Prados; Levi de Oliveira Bueno. EQUIVALENCE BETWEEN HOT TENSILE AND CREEP DATA IN ALUMINUM ALLOY AL7475-T7351. PART 1: RELATIONS INVOLVING STRESS, STRAIN RATE AND TEMPERATURE , p. 8310-8322. In: 69° Congresso Anual da ABM - Internacional, São Paulo - Brasil, 2014.
ISSN: 2594-5327 , DOI 10.5151/1516-392X-24905