Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel

Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel

The thick plate narrow gap welding of 25Cr2NiMo1V rotor steel is achieved by metal active gas arc welding, in which the weld gap was 18.04–19.9 mm. After welding, the weldment was heat treated at 580 °C (20 h). The impact and tensile properties in the as-welded and heat-treated were studied. The res...

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Main Authors: Xiaoyan Qian, Xin Ye, Xiaoqi Hou, Fuxin Wang, Shaowei Li, Zhishui Yu, Shanglei Yang, Chen Huang, Jinpeng Cui, Chunxiang Zhu
Format: Article
Language:English
Published: MDPI AG 2021-08-01
Series:Materials
Subjects:
swing narrow gap MAG welding
microstructure
impact
tensile
Online Access:https://www.mdpi.com/1996-1944/14/16/4498
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spelling doaj-952105b201394df2b371121b0c2793e12021-08-26T14:00:46ZengMDPI AGMaterials1996-19442021-08-01144498449810.3390/ma14164498Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick SteelXiaoyan Qian0Xin Ye1Xiaoqi Hou2Fuxin Wang3Shaowei Li4Zhishui Yu5Shanglei Yang6Chen Huang7Jinpeng Cui8Chunxiang Zhu9School of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaSchool of Materials Engineering, Shanghai University of Engineering Science, Shanghai 201620, ChinaShanghai Turbine Factory, Shanghai Electric Power Station Equipment Co., Ltd., Shanghai 201100, ChinaShanghai Turbine Factory, Shanghai Electric Power Station Equipment Co., Ltd., Shanghai 201100, ChinaThe thick plate narrow gap welding of 25Cr2NiMo1V rotor steel is achieved by metal active gas arc welding, in which the weld gap was 18.04–19.9 mm. After welding, the weldment was heat treated at 580 °C (20 h). The impact and tensile properties in the as-welded and heat-treated were studied. The results show that after heat treatment, the coarse carbides in the center of the weld were transformed into fine granular carbides distributed along the grain boundaries, and the quantity of carbide precipitates in the weld near the fusion line was reduced. The tensile fracture mode changed from a ductile fracture to a combination of brittle and ductile fractures, and the tensile strength of the weld metal changed from 605 MPa to 543 MPa. After heat-treated, the radiation zone of the weld center changed from a brittle fracture to a combination of brittle and ductile fractures, and the impact energy changed from 141 J to 183 J; the characteristics of the brittle fracture in the radial zone of the fusion line were more obvious, and the impact energy changed from 113 J to 95 J. Therefore, after heat treatment, the toughness of the welded metal was improved, without reducing the strength and hardness of the welded metal to a large extent.https://www.mdpi.com/1996-1944/14/16/4498swing narrow gap MAG weldingmicrostructureimpacttensile
collection DOAJ
language English
format Article
sources DOAJ
author Xiaoyan Qian
Xin Ye
Xiaoqi Hou
Fuxin Wang
Shaowei Li
Zhishui Yu
Shanglei Yang
Chen Huang
Jinpeng Cui
Chunxiang Zhu
spellingShingle Xiaoyan Qian
Xin Ye
Xiaoqi Hou
Fuxin Wang
Shaowei Li
Zhishui Yu
Shanglei Yang
Chen Huang
Jinpeng Cui
Chunxiang Zhu
Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
Materials
swing narrow gap MAG welding
microstructure
impact
tensile
author_facet Xiaoyan Qian
Xin Ye
Xiaoqi Hou
Fuxin Wang
Shaowei Li
Zhishui Yu
Shanglei Yang
Chen Huang
Jinpeng Cui
Chunxiang Zhu
author_sort Xiaoyan Qian
title Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
title_short Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
title_full Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
title_fullStr Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
title_full_unstemmed Effect of 580 °C (20 h) Heat Treatment on Mechanical Properties of 25Cr2NiMo1V Rotor-Welded Joints of Oscillating Arc (MAG) Narrow Gap Thick Steel
title_sort effect of 580 °c (20 h) heat treatment on mechanical properties of 25cr2nimo1v rotor-welded joints of oscillating arc (mag) narrow gap thick steel
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-08-01
description The thick plate narrow gap welding of 25Cr2NiMo1V rotor steel is achieved by metal active gas arc welding, in which the weld gap was 18.04–19.9 mm. After welding, the weldment was heat treated at 580 °C (20 h). The impact and tensile properties in the as-welded and heat-treated were studied. The results show that after heat treatment, the coarse carbides in the center of the weld were transformed into fine granular carbides distributed along the grain boundaries, and the quantity of carbide precipitates in the weld near the fusion line was reduced. The tensile fracture mode changed from a ductile fracture to a combination of brittle and ductile fractures, and the tensile strength of the weld metal changed from 605 MPa to 543 MPa. After heat-treated, the radiation zone of the weld center changed from a brittle fracture to a combination of brittle and ductile fractures, and the impact energy changed from 141 J to 183 J; the characteristics of the brittle fracture in the radial zone of the fusion line were more obvious, and the impact energy changed from 113 J to 95 J. Therefore, after heat treatment, the toughness of the welded metal was improved, without reducing the strength and hardness of the welded metal to a large extent.
topic swing narrow gap MAG welding
microstructure
impact
tensile
url https://www.mdpi.com/1996-1944/14/16/4498
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