Degradación de la tenacidad al impacto durante el envejecimiento acelerado de soldadura en acero microaleado

B. Vargas-Arista; J. M. Hallen; A. Albiter; C. Ángeles-Chávez

doi:10.3989/revmetalm.0747

Degradación de la tenacidad al impacto durante el envejecimiento acelerado de soldadura en acero microaleado

Translated title of the contribution: Degradation of impact fracture during accelerated aging of weld metal on mlcroalloyed steel

B. Vargas-Arista, J. M. Hallen, A. Albiter, C. Ángeles-Chávez

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The effect of accelerated aging on the toughness and fracture of the longitudinal weld metal of an API5L-X52 linepipe steel was evaluated by Charpy V-notch impact test, fracture analysis and transmission electron microscopy. Aging was performed at 250 °C for 100 to 1000 h. The impact results indicated a significant reduction in the fracture energy and impact toughness as a function of aging time, which were achieved by the scanning electron microscope fractographs that showed a decrease in the vol fraction of microvoids by Charpy ductile failure with the aging time, which favored the brittle fracture by transgranular cleavage. The minimum vol fraction of microvoids was reached at 500 h due to the peak-aged. The microstructural analysis indicated the precipitation of transgranular iron nanocarbides in the aged specimens, which was related to the deterioration of toughness and change in the ductile to brittle behavior.

Translated title of the contribution	Degradation of impact fracture during accelerated aging of weld metal on mlcroalloyed steel
Original language	Spanish
Pages (from-to)	485-492
Number of pages	8
Journal	Revista de Metalurgia (Madrid)
Volume	44
Issue number	6
DOIs	https://doi.org/10.3989/revmetalm.0747
State	Published - Sep 2008
Externally published	Yes

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title = "Degradaci{\'o}n de la tenacidad al impacto durante el envejecimiento acelerado de soldadura en acero microaleado",

abstract = "The effect of accelerated aging on the toughness and fracture of the longitudinal weld metal of an API5L-X52 linepipe steel was evaluated by Charpy V-notch impact test, fracture analysis and transmission electron microscopy. Aging was performed at 250 °C for 100 to 1000 h. The impact results indicated a significant reduction in the fracture energy and impact toughness as a function of aging time, which were achieved by the scanning electron microscope fractographs that showed a decrease in the vol fraction of microvoids by Charpy ductile failure with the aging time, which favored the brittle fracture by transgranular cleavage. The minimum vol fraction of microvoids was reached at 500 h due to the peak-aged. The microstructural analysis indicated the precipitation of transgranular iron nanocarbides in the aged specimens, which was related to the deterioration of toughness and change in the ductile to brittle behavior.",

keywords = "Accelerated aging, Microalloyed steel, Precipitation, Toughness, Weld metal",

author = "B. Vargas-Arista and Hallen, {J. M.} and A. Albiter and C. {\'A}ngeles-Ch{\'a}vez",

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T1 - Degradación de la tenacidad al impacto durante el envejecimiento acelerado de soldadura en acero microaleado

AU - Vargas-Arista, B.

AU - Hallen, J. M.

AU - Albiter, A.

AU - Ángeles-Chávez, C.

PY - 2008/9

Y1 - 2008/9

N2 - The effect of accelerated aging on the toughness and fracture of the longitudinal weld metal of an API5L-X52 linepipe steel was evaluated by Charpy V-notch impact test, fracture analysis and transmission electron microscopy. Aging was performed at 250 °C for 100 to 1000 h. The impact results indicated a significant reduction in the fracture energy and impact toughness as a function of aging time, which were achieved by the scanning electron microscope fractographs that showed a decrease in the vol fraction of microvoids by Charpy ductile failure with the aging time, which favored the brittle fracture by transgranular cleavage. The minimum vol fraction of microvoids was reached at 500 h due to the peak-aged. The microstructural analysis indicated the precipitation of transgranular iron nanocarbides in the aged specimens, which was related to the deterioration of toughness and change in the ductile to brittle behavior.

AB - The effect of accelerated aging on the toughness and fracture of the longitudinal weld metal of an API5L-X52 linepipe steel was evaluated by Charpy V-notch impact test, fracture analysis and transmission electron microscopy. Aging was performed at 250 °C for 100 to 1000 h. The impact results indicated a significant reduction in the fracture energy and impact toughness as a function of aging time, which were achieved by the scanning electron microscope fractographs that showed a decrease in the vol fraction of microvoids by Charpy ductile failure with the aging time, which favored the brittle fracture by transgranular cleavage. The minimum vol fraction of microvoids was reached at 500 h due to the peak-aged. The microstructural analysis indicated the precipitation of transgranular iron nanocarbides in the aged specimens, which was related to the deterioration of toughness and change in the ductile to brittle behavior.

KW - Accelerated aging

KW - Microalloyed steel

KW - Precipitation

KW - Toughness

KW - Weld metal

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U2 - 10.3989/revmetalm.0747

DO - 10.3989/revmetalm.0747

M3 - Artículo

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VL - 44

SP - 485

EP - 492

JO - Revista de Metalurgia (Madrid)

JF - Revista de Metalurgia (Madrid)

IS - 6

ER -

Degradación de la tenacidad al impacto durante el envejecimiento acelerado de soldadura en acero microaleado

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