[1]赵红波,等.焊接热输入对厚壁X80管线钢粗晶热影响区组织及性能的影响[J].焊管,2017,40(9):6-10.[doi:10.19291/j.cnki.1001-3938.2017.09.002]
 ZHAO Hongbo,BI Zongyue,et al.Influence of Welding Heat Input on Coarse Grain Heat Affect Zone Microstructure and Properties of Thick Wall X80 Pipleline Steel[J].,2017,40(9):6-10.[doi:10.19291/j.cnki.1001-3938.2017.09.002]
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焊接热输入对厚壁X80管线钢
粗晶热影响区组织及性能的影响
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
40
期数:
2017年第9期
页码:
6-10
栏目:
试验与研究
出版日期:
2017-09-28

文章信息/Info

Title:
Influence of Welding Heat Input on Coarse Grain Heat Affect Zone Microstructure
and Properties of Thick Wall X80 Pipleline Steel
文章编号:
10.19291/j.cnki.1001-3938.2017.09.002
作者:
赵红波1 2毕宗岳1 2牛 辉1 2包志刚1 2付宏强1 2
1. 国家石油天然气管材工程技术研究中心, 陕西 宝鸡 721008;
2. 宝鸡石油钢管有限责任公司 钢管研究院, 陕西 宝鸡 721008
Author(s):
ZHAO Hongbo1 2 BI Zongyue1 2 NIU Hui1 2 BAO Zhigang1 2 FU Hongqiang1 2
1. Chinese National Engineering Research Center for Petroleum and Natural Gas Tubular Goods,Baoji 721008,Shaanxi,China;
2. Steel Pipe Research Institute,Baoji Petroleum Steel Pipe Co., Ltd., Baoji 721008,Shaanxi,China
关键词:
焊接X80管线钢厚壁热输入热影响区显微组织力学性能
Keywords:
weldingX80pipeline steelthick wallheat inputheat affected zonemicrostructuremechanical properties
分类号:
TG407
DOI:
10.19291/j.cnki.1001-3938.2017.09.002
文献标志码:
B
摘要:
为了研究焊接热输入对X80管线钢粗晶热影响区的组织及性能影响,采用热模拟技术,对不同焊接热输入下X80管线钢的力学性能与显微组织进行了研究和分析。研究结果表明,在不同热输入量下厚壁X80管线钢粗晶热影响区组织为板条贝氏体、粒状贝氏体及M-A岛组织。当热输入量小于25 kJ/mm时,粗晶热影响区组织以贝氏体板条为主,冲击韧性最佳,但硬度较高;当热输入量在25 kJ/mm时,试验钢粗晶热影响区组织为板条贝氏体与粒状贝氏体,冲击韧性较高,且硬度适中;随着热输入的增大,粗晶热影响区中的粒状贝氏体变得极为粗大,同时,M-A形态与分布发生急剧变化,粗晶热影响区出现严重软化,冲击韧性值明显下降。
Abstract:
In order to study the influence of welding heat input on microstructure and properties of X80 thick wall pipeline steel coarse grain heat affected zone, it adopted the thermal simulation technology to investigate and analyze the mechanical properties and microstructure of X80 pipeline steel. The results indicated that the microstructure of X80 pipeline steel coarse grain heat affected zone compose of lath bainitic, granular bainite and M-A. When the heat input is less than 25 kJ/mm, the coarse grain heat affected zone mainly compose of lath bainitic, the impact toughness is optimum, but the hardenability is moderate; when the heat input is greater than 25 kJ/mm, the coarse grain heat affected zone mainly compose of lath bainitic and granular bainite, the impact toughness is higher, and the hardness moderate; with the increase of heat input, the granular bainite of coarse grain heat affected zone becomes very bulky, at the same time, the form and distribution of M-A structure rapidly change, the serious softening appear in coarse grain heat affected zone, the impact toughness values dropped to the lowest.

参考文献/References:

[1] QIAN C W,WANG Y M. Development and application of high-grade pipeline steel at home and abroad[J]. Petroleum Engineering Construction,2012,38(1):1-4.
[2] 陈翠欣,李午申,王庆鹏,等. 热循环对高铌管线钢焊接热影响区冲击韧性的影响[J]. 金属热处理,2009,34(12):32-35.
[3] 乔桂英,郭宝峰,陈小伟,等. X80焊接粗晶区的组织和性能[J]. 焊接学报,2005,26(6):77-80.
[4] 苗华军,王岩,曾莉. 高Nb-X80管线钢奥氏体晶粒长大规律[J]. 金属热处理,2012,37(9):64-66.
[5] 衣龙海,杜林秀,王国栋,等. X80管线钢的组织与性能研究[J]. 东北大学学报(自然科学版),2008,29(2):213-216.
[6] 韩乐,任慧平,金自力,等. 微观取向对X80管线钢动态冲击性能的影响[J]. 金属热处理,2012,37(7):86-89.
[7] 崔忠圻,覃耀春. 金属学及热处理[M]. 第2版. 北京:机械工业出版社,2007.
[8] ZHOU M,DU L X,ZHAO Y F,et al. Microstructure characteristics and mechanical properities of X80 pipeline steels[J]. Journal of Wuhan University of Technilogy Mater,2012,27(2):252-255.
[9] 刘方明,李午申,刘哲,等. X80管线钢焊接热影响区组织的模拟研究[J]. Welding Technology,2007,36(3):32-35.
[10] 田德允,张瑞成. 微合金高强钢焊接热影响区中粒状贝氏体微观组织结构的实验研究[J]. 金属学报,2000,36(2):181-186.
[11] 高惠临. 管线钢与管线钢管[M]. 北京:中国石化出版社,2012.
[12] DAVISAND J E. Cleavage Initiation in the iercritically reheated coarse-affected zone:part1,fractographic evidence[J]. Metall Trans,1996,27A(10):3019-3029.
[13] 于庆波. M-A岛对粒状贝氏体钢冲击韧性的影响[J]. 热加工工艺,2012,12(24):41-42.
[14] 王学敏,杨善舞. 超低碳贝氏体钢焊接热影响区冲击韧度的研究[J]. 钢铁研究学报,2000,12(1):47-52.
[15] 齐亮,赵征志,赵爱民,等. 铌对高钢级管线钢中第二相析出与奥氏体晶粒长大行为的影响[J]. 北京科技大学学报,2013,35(3):304-311.

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备注/Memo

备注/Memo:

收稿日期: 2017-05-10
修改稿收稿日期: 2017-08-10

作者简介: 赵红波(1981—), 男, 工程师, 目前主要从事石油天然气管线钢用焊接材料及工艺研究, 发表论文10余篇。

更新日期/Last Update: 2017-12-11