Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation

Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation

Anomalies as misalignment, microcrack are inevitable for large diameter high strength steel pipelines. To ensure the strain capacity of mismatched welding joint with misalignments of D 1,422 mm X80 steel pipeline, a comprehensive study via wide plate experiments and finite element model simulations...

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Bibliographic Details
Main Authors: Yue Yang, Hong Zhang, Kai Wu, Pengchao Chen, Yongli Sui, Die Yang, Xiaoben Liu
Format: Article
Language:English
Published: KeAi Communications Co. Ltd. 2021-06-01
Series:Journal of Pipeline Science and Engineering
Subjects:
Strain capacity
Welding joint
Crack tip opening displacement
Experimental investigation
Numerical investigation
Online Access:http://www.sciencedirect.com/science/article/pii/S2667143321000275
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spelling doaj-4aa889f6dc724b8487d20bdb0fd57afc2021-10-05T04:22:04ZengKeAi Communications Co. Ltd.Journal of Pipeline Science and Engineering2667-14332021-06-0112212224Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigationYue Yang0Hong Zhang1Kai Wu2Pengchao Chen3Yongli Sui4Die Yang5Xiaoben Liu6National Engineering Laboratory for Pipeline Safety, MOE Key Laboratory of Petroleum Engineering, Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum-Beijing, Beijing 102249, ChinaNational Engineering Laboratory for Pipeline Safety, MOE Key Laboratory of Petroleum Engineering, Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum-Beijing, Beijing 102249, ChinaNational Engineering Laboratory for Pipeline Safety, MOE Key Laboratory of Petroleum Engineering, Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum-Beijing, Beijing 102249, ChinaPipeChina North Pipeline Company, Langfang, Hebei 065000, ChinaChina Petroleum Pipeline Research Institute, National Engineering Laboratory for Pipeline Safety, Langfang, Hebei 065000, ChinaChina Petroleum Pipeline Research Institute, National Engineering Laboratory for Pipeline Safety, Langfang, Hebei 065000, ChinaNational Engineering Laboratory for Pipeline Safety, MOE Key Laboratory of Petroleum Engineering, Beijing Key Laboratory of Urban Oil and Gas Distribution Technology, China University of Petroleum-Beijing, Beijing 102249, China; China University of Petroleum-Beijing at Karamay, Karamay, Xinjiang 834000, China; Corresponding author.Anomalies as misalignment, microcrack are inevitable for large diameter high strength steel pipelines. To ensure the strain capacity of mismatched welding joint with misalignments of D 1,422 mm X80 steel pipeline, a comprehensive study via wide plate experiments and finite element model simulations was conducted. The full-scale tensile experiment of a X80 pipe wide plate with weld joint was conducted. Strain distributions on the plate was derived by DIC technic. Trends of CMOD at the precrack in the weld joint with tensile strains monitored. A FE model was established to inverse the wide plate experiment and prove the accuracy of numerical model’s prediction results for crack driving forces. Using the same modeling method, a parametrical 3D numerical simulation model for X80 line pipe with cracks in automatic welding joints was established. The double V-shaped groove type welding joint was precisely considered in the geometric model. Difference of the stress-strain relationships of yielding-to-tensile ratio of the BM, softening rate of the HAZ and strength matching coefficient of WM were considered in the material model. A CTOD extracting program coded was employed. Parametric analysis was performed to investigate the effects of load conditions, strength matching coefficient of WM, yielding-to-tensile ratio of BM and softening rate of HAZ on the strain capacity with a critical fracture toughness adopted in pipeline industry. Based on the derived results, mismatched ratio requirements of D 1,422 mm X80 pipes were listed, which provides guidance for the welding parameter design and safety evaluation of automatic welding joints.http://www.sciencedirect.com/science/article/pii/S2667143321000275Strain capacityWelding jointCrack tip opening displacementExperimental investigationNumerical investigation
collection DOAJ
language English
format Article
sources DOAJ
author Yue Yang
Hong Zhang
Kai Wu
Pengchao Chen
Yongli Sui
Die Yang
Xiaoben Liu
spellingShingle Yue Yang
Hong Zhang
Kai Wu
Pengchao Chen
Yongli Sui
Die Yang
Xiaoben Liu
Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
Journal of Pipeline Science and Engineering
Strain capacity
Welding joint
Crack tip opening displacement
Experimental investigation
Numerical investigation
author_facet Yue Yang
Hong Zhang
Kai Wu
Pengchao Chen
Yongli Sui
Die Yang
Xiaoben Liu
author_sort Yue Yang
title Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
title_short Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
title_full Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
title_fullStr Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
title_full_unstemmed Strain capacity analysis of the mismatched welding joint with misalignments of D 1,422 mm X80 steel pipelines: An experimental and numerical investigation
title_sort strain capacity analysis of the mismatched welding joint with misalignments of d 1,422 mm x80 steel pipelines: an experimental and numerical investigation
publisher KeAi Communications Co. Ltd.
series Journal of Pipeline Science and Engineering
issn 2667-1433
publishDate 2021-06-01
description Anomalies as misalignment, microcrack are inevitable for large diameter high strength steel pipelines. To ensure the strain capacity of mismatched welding joint with misalignments of D 1,422 mm X80 steel pipeline, a comprehensive study via wide plate experiments and finite element model simulations was conducted. The full-scale tensile experiment of a X80 pipe wide plate with weld joint was conducted. Strain distributions on the plate was derived by DIC technic. Trends of CMOD at the precrack in the weld joint with tensile strains monitored. A FE model was established to inverse the wide plate experiment and prove the accuracy of numerical model’s prediction results for crack driving forces. Using the same modeling method, a parametrical 3D numerical simulation model for X80 line pipe with cracks in automatic welding joints was established. The double V-shaped groove type welding joint was precisely considered in the geometric model. Difference of the stress-strain relationships of yielding-to-tensile ratio of the BM, softening rate of the HAZ and strength matching coefficient of WM were considered in the material model. A CTOD extracting program coded was employed. Parametric analysis was performed to investigate the effects of load conditions, strength matching coefficient of WM, yielding-to-tensile ratio of BM and softening rate of HAZ on the strain capacity with a critical fracture toughness adopted in pipeline industry. Based on the derived results, mismatched ratio requirements of D 1,422 mm X80 pipes were listed, which provides guidance for the welding parameter design and safety evaluation of automatic welding joints.
topic Strain capacity
Welding joint
Crack tip opening displacement
Experimental investigation
Numerical investigation
url http://www.sciencedirect.com/science/article/pii/S2667143321000275
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AT pengchaochen straincapacityanalysisofthemismatchedweldingjointwithmisalignmentsofd1422mmx80steelpipelinesanexperimentalandnumericalinvestigation
AT yonglisui straincapacityanalysisofthemismatchedweldingjointwithmisalignmentsofd1422mmx80steelpipelinesanexperimentalandnumericalinvestigation
AT dieyang straincapacityanalysisofthemismatchedweldingjointwithmisalignmentsofd1422mmx80steelpipelinesanexperimentalandnumericalinvestigation
AT xiaobenliu straincapacityanalysisofthemismatchedweldingjointwithmisalignmentsofd1422mmx80steelpipelinesanexperimentalandnumericalinvestigation
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