Weld cracking linked to wires containing boron

J. J. Perdomo; T. D. Spry; J. E. Indacochea; A. Polar; F. Rumiche

Weld cracking linked to wires containing boron

J. J. Perdomo
, T. D. Spry
, J. E. Indacochea
, A. Polar
, F. Rumiche

Research output: Contribution to journal › Review article › peer-review

Abstract

A study was conducted by welding contractors to determine the causes of cracking of low-carbon steels and to recommend preventive measures. Weld samples were analyzed for the chemical composition of deposited welds using optical emission spectroscopy (OES) and it was found that flux cored wires that produced cracks had about 0.008% boron. Hardness evaluations of cracked welds showed regions of increased hardness in the weld metal, ranging from 253-412 HVN, which was caused by the presence of boron that increase hardenability in low-carbon steels. A metallographic evaluation of the microstructures showed the presence of bainite and martensite, which was consistent with the hardness measurements obtained. The flux cored wires from five different manufacturers were also evaluated, including the wires that had been used successfully in other field repairs. It was recommended that carbon steel flux cored wire be purchased with a maximum boron content of 0.003%.

Original language	English
Pages (from-to)	28-30
Number of pages	3
Journal	Welding Journal (Miami, Fla)
Volume	85
Issue number	11
State	Published - Nov 2006
Externally published	Yes

Cite this

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title = "Weld cracking linked to wires containing boron",

abstract = "A study was conducted by welding contractors to determine the causes of cracking of low-carbon steels and to recommend preventive measures. Weld samples were analyzed for the chemical composition of deposited welds using optical emission spectroscopy (OES) and it was found that flux cored wires that produced cracks had about 0.008\% boron. Hardness evaluations of cracked welds showed regions of increased hardness in the weld metal, ranging from 253-412 HVN, which was caused by the presence of boron that increase hardenability in low-carbon steels. A metallographic evaluation of the microstructures showed the presence of bainite and martensite, which was consistent with the hardness measurements obtained. The flux cored wires from five different manufacturers were also evaluated, including the wires that had been used successfully in other field repairs. It was recommended that carbon steel flux cored wire be purchased with a maximum boron content of 0.003\%.",

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year = "2006",

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T1 - Weld cracking linked to wires containing boron

AU - Perdomo, J. J.

AU - Spry, T. D.

AU - Indacochea, J. E.

AU - Polar, A.

AU - Rumiche, F.

PY - 2006/11

Y1 - 2006/11

N2 - A study was conducted by welding contractors to determine the causes of cracking of low-carbon steels and to recommend preventive measures. Weld samples were analyzed for the chemical composition of deposited welds using optical emission spectroscopy (OES) and it was found that flux cored wires that produced cracks had about 0.008% boron. Hardness evaluations of cracked welds showed regions of increased hardness in the weld metal, ranging from 253-412 HVN, which was caused by the presence of boron that increase hardenability in low-carbon steels. A metallographic evaluation of the microstructures showed the presence of bainite and martensite, which was consistent with the hardness measurements obtained. The flux cored wires from five different manufacturers were also evaluated, including the wires that had been used successfully in other field repairs. It was recommended that carbon steel flux cored wire be purchased with a maximum boron content of 0.003%.

AB - A study was conducted by welding contractors to determine the causes of cracking of low-carbon steels and to recommend preventive measures. Weld samples were analyzed for the chemical composition of deposited welds using optical emission spectroscopy (OES) and it was found that flux cored wires that produced cracks had about 0.008% boron. Hardness evaluations of cracked welds showed regions of increased hardness in the weld metal, ranging from 253-412 HVN, which was caused by the presence of boron that increase hardenability in low-carbon steels. A metallographic evaluation of the microstructures showed the presence of bainite and martensite, which was consistent with the hardness measurements obtained. The flux cored wires from five different manufacturers were also evaluated, including the wires that had been used successfully in other field repairs. It was recommended that carbon steel flux cored wire be purchased with a maximum boron content of 0.003%.

UR - https://www.scopus.com/pages/publications/33751000202

M3 - Review article

AN - SCOPUS:33751000202

SN - 0043-2296

VL - 85

SP - 28

EP - 30

JO - Welding Journal (Miami, Fla)

JF - Welding Journal (Miami, Fla)

IS - 11

ER -

Weld cracking linked to wires containing boron

Abstract

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