Crack analysis of induction heating bent pipe

Zhuanzhao Yang; Daoxin Liu; Xiaohua Zhang

doi:10.4028/www.scientific.net/AMM.29-32.697

Crack analysis of induction heating bent pipe

Zhuanzhao Yang, Daoxin Liu, Xiaohua Zhang

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

1 Scopus citations

Abstract

There were 20 of 103 length of pipe found cracks on the extrados surface of the bent pipe made of Φ406.4×10mm L360 Longitudinal Submerged Arc Welding (LSAW) pipe, the cracks were mostly distributed in the extrados surface and the arc initial point of the bent pipe, the cracks were spindle-shaped and narrow at both ends with the longitudinal direction vertical to the axis of bent pipe. The mechanism and the causes of the cracks were studied by macro inspection, mechanical property test, microscope, scanning electron microscopy and energy spectrum analysis, which shown that the cracks were result from the contamination of copper or its alloy during or before the bent pipe production. The contaminated material like copper infiltrated and diffused into the base metal at high temperature, and could hardly stead to and transfer the normal stress from the base metal where the inertial crack was shaped. Meanwhile, the new crack was formed at the tip of inertial crack after the new infiltration and diffusion under the condition of both high temperature and tensile stress, so that the crack progressed and extended in this way.

Original language	English
Title of host publication	Applied Mechanics and Mechanical Engineering
Pages	697-702
Number of pages	6
DOIs	https://doi.org/10.4028/www.scientific.net/AMM.29-32.697
State	Published - 2010
Event	2010 International Conference on Applied Mechanics and Mechanical Engineering, ICAMME 2010 - Changsha, China Duration: 8 Sep 2010 → 9 Sep 2010

Publication series

Name	Applied Mechanics and Materials
Volume	29-32
ISSN (Print)	1660-9336
ISSN (Electronic)	1662-7482

Conference

Conference	2010 International Conference on Applied Mechanics and Mechanical Engineering, ICAMME 2010
Country/Territory	China
City	Changsha
Period	8/09/10 → 9/09/10

Keywords

Crack
Induction heating bent pipe
Low melting point metal
Scanning electron microscopy
Tensile stress

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10.4028/www.scientific.net/AMM.29-32.697

Cite this

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title = "Crack analysis of induction heating bent pipe",

abstract = "There were 20 of 103 length of pipe found cracks on the extrados surface of the bent pipe made of Φ406.4×10mm L360 Longitudinal Submerged Arc Welding (LSAW) pipe, the cracks were mostly distributed in the extrados surface and the arc initial point of the bent pipe, the cracks were spindle-shaped and narrow at both ends with the longitudinal direction vertical to the axis of bent pipe. The mechanism and the causes of the cracks were studied by macro inspection, mechanical property test, microscope, scanning electron microscopy and energy spectrum analysis, which shown that the cracks were result from the contamination of copper or its alloy during or before the bent pipe production. The contaminated material like copper infiltrated and diffused into the base metal at high temperature, and could hardly stead to and transfer the normal stress from the base metal where the inertial crack was shaped. Meanwhile, the new crack was formed at the tip of inertial crack after the new infiltration and diffusion under the condition of both high temperature and tensile stress, so that the crack progressed and extended in this way.",

keywords = "Crack, Induction heating bent pipe, Low melting point metal, Scanning electron microscopy, Tensile stress",

author = "Zhuanzhao Yang and Daoxin Liu and Xiaohua Zhang",

year = "2010",

doi = "10.4028/www.scientific.net/AMM.29-32.697",

language = "英语",

isbn = "9780878492459",

series = "Applied Mechanics and Materials",

pages = "697--702",

booktitle = "Applied Mechanics and Mechanical Engineering",

note = "2010 International Conference on Applied Mechanics and Mechanical Engineering, ICAMME 2010 ; Conference date: 08-09-2010 Through 09-09-2010",

}

TY - GEN

T1 - Crack analysis of induction heating bent pipe

AU - Yang, Zhuanzhao

AU - Liu, Daoxin

AU - Zhang, Xiaohua

PY - 2010

Y1 - 2010

N2 - There were 20 of 103 length of pipe found cracks on the extrados surface of the bent pipe made of Φ406.4×10mm L360 Longitudinal Submerged Arc Welding (LSAW) pipe, the cracks were mostly distributed in the extrados surface and the arc initial point of the bent pipe, the cracks were spindle-shaped and narrow at both ends with the longitudinal direction vertical to the axis of bent pipe. The mechanism and the causes of the cracks were studied by macro inspection, mechanical property test, microscope, scanning electron microscopy and energy spectrum analysis, which shown that the cracks were result from the contamination of copper or its alloy during or before the bent pipe production. The contaminated material like copper infiltrated and diffused into the base metal at high temperature, and could hardly stead to and transfer the normal stress from the base metal where the inertial crack was shaped. Meanwhile, the new crack was formed at the tip of inertial crack after the new infiltration and diffusion under the condition of both high temperature and tensile stress, so that the crack progressed and extended in this way.

AB - There were 20 of 103 length of pipe found cracks on the extrados surface of the bent pipe made of Φ406.4×10mm L360 Longitudinal Submerged Arc Welding (LSAW) pipe, the cracks were mostly distributed in the extrados surface and the arc initial point of the bent pipe, the cracks were spindle-shaped and narrow at both ends with the longitudinal direction vertical to the axis of bent pipe. The mechanism and the causes of the cracks were studied by macro inspection, mechanical property test, microscope, scanning electron microscopy and energy spectrum analysis, which shown that the cracks were result from the contamination of copper or its alloy during or before the bent pipe production. The contaminated material like copper infiltrated and diffused into the base metal at high temperature, and could hardly stead to and transfer the normal stress from the base metal where the inertial crack was shaped. Meanwhile, the new crack was formed at the tip of inertial crack after the new infiltration and diffusion under the condition of both high temperature and tensile stress, so that the crack progressed and extended in this way.

KW - Crack

KW - Induction heating bent pipe

KW - Low melting point metal

KW - Scanning electron microscopy

KW - Tensile stress

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U2 - 10.4028/www.scientific.net/AMM.29-32.697

DO - 10.4028/www.scientific.net/AMM.29-32.697

M3 - 会议稿件

AN - SCOPUS:78650796019

SN - 9780878492459

T3 - Applied Mechanics and Materials

SP - 697

EP - 702

BT - Applied Mechanics and Mechanical Engineering

T2 - 2010 International Conference on Applied Mechanics and Mechanical Engineering, ICAMME 2010

Y2 - 8 September 2010 through 9 September 2010

ER -

Crack analysis of induction heating bent pipe

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