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Science and Technology of Welding and Joining Volume 16, 2011 - Issue 3: Residual Stress
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Original Article

Residual stresses in girth welds of carbon steel pipes: neutron diffraction analysis

T NeerajCorporate Strategic Research, ExxonMobil Research and Engineering Company, Annandale, NJ08801, USACorrespondence[email protected]
,
T Gnäupel-HeroldNIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD20899, USA
,
H J PraskNIST Center for Neutron Research, National Institute of Standards and Technology, Gaithersburg, MD20899, USA
&
R AyerCorporate Strategic Research, ExxonMobil Research and Engineering Company, Annandale, NJ08801, USA
Pages 249-253 | Received 25 Oct 2010, Accepted 21 Dec 2010, Published online: 12 Nov 2013

Citations (14)

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Read on this site (3)

M. Weltevreden, H. Coules, I. Hadley & Y.J. Janin. (2023) Statistical analysis of residual stresses in austenitic pipe girth welds. Science and Technology of Welding and Joining 28:5, pages 381-387.
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M Law & V Luzin. (2012) Measured residual stresses and integrity of pipeline girth welds. Science and Technology of Welding and Joining 17:8, pages 694-698.
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A De & T DebRoy. (2011) A perspective on residual stresses in welding. Science and Technology of Welding and Joining 16:3, pages 204-208.
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Articles from other publishers (11)

Hamed Shirazi, Reg Eadie & Weixing Chen. (2023) A review on current understanding of pipeline circumferential stress corrosion cracking in near-neutral PH environment. Engineering Failure Analysis 148, pages 107215.
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Matthew Weltevreden, Isabel Hadley & Harry Coules. (2021) Probabilistic treatment of pipe girth weld residual stress in fracture assessment. International Journal of Pressure Vessels and Piping 192, pages 104397.
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Joseph A. Ronevich, Eun Ju Song, Brian P. Somerday & Christopher W. San Marchi. (2021) Hydrogen-assisted fracture resistance of pipeline welds in gaseous hydrogen. International Journal of Hydrogen Energy 46:10, pages 7601-7614.
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Yifan Huang & Wenxing Zhou. (2020) Impacts of residual stresses on J-integral for clamped SE(T) specimens with weld centerline cracks. Theoretical and Applied Fracture Mechanics 107, pages 102511.
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Elizabeth S. Drexler, Andrew J. Slifka, Robert L. Amaro, Jeffrey W. Sowards, Matthew J. Connolly, May L. Martin & Damian S. Lauria. (2019) Fatigue Testing of Pipeline Welds and Heat-Affected Zones in Pressurized Hydrogen Gas. Journal of Research of the National Institute of Standards and Technology 124.
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A. Mirzaee-Sisan & G. Wu. (2019) Residual stress in pipeline girth welds- A review of recent data and modelling. International Journal of Pressure Vessels and Piping 169, pages 142-152.
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M. Clyde Zondi, Andrew Venter, Deon Marais & Clinton Bemont. (2017) Characterization of Welding-Induced Residual Stress Using Neutron Diffraction Technique. Journal of Pressure Vessel Technology 139:6.
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Yao Ren, Anna Paradowska, Bin Wang, Elvin Eren & Yin Jin Janin. (2017) Residual Stress State of X65 Pipeline Girth Welds Before and After Local and Furnace Post Weld Heat Treatment. Journal of Pressure Vessel Technology 139:4.
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J. A. Ronevich & B. P. Somerday. (2016) Assessing Gaseous Hydrogen Assisted Fatigue Crack Growth Susceptibility of Pipeline Steel Weld Fusion Zones and Heat Affected Zones. Materials Performance and Characterization 5:3, pages 20150057.
Crossref
Joseph A. Ronevich, Brian P. Somerday & Chris W. San Marchi. (2016) Effects of microstructure banding on hydrogen assisted fatigue crack growth in X65 pipeline steels. International Journal of Fatigue 82, pages 497-504.
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S. Hossain, C.E. Truman & D.J. Smith. (2012) Finite element validation of the deep hole drilling method for measuring residual stresses. International Journal of Pressure Vessels and Piping 93-94, pages 29-41.
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