[1]胡松林.HFW焊管焊缝熔合线宽度的控制[J].焊管,2017,40(6):61-64.[doi:10.19291/j.cnki.1001-3938.2017.06.011]
 HU Songlin.Weld Fusion Line Width Control of HFW Pipe[J].,2017,40(6):61-64.[doi:10.19291/j.cnki.1001-3938.2017.06.011]
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HFW焊管焊缝熔合线宽度的控制
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
40
期数:
2017年第6期
页码:
61-64
栏目:
经验交流
出版日期:
2017-06-28

文章信息/Info

Title:
Weld Fusion Line Width Control of HFW Pipe
文章编号:
10.19291/j.cnki.1001-3938.2017.06.011
作者:
胡松林
宝钢股份有限公司钢管条钢事业部, 上海 201900
Author(s):
HU Songlin
Tube, Pipe and Bar Business Unit, Baoshan Iron & Steel Co., Ltd., Shanghai 201900, China
关键词:
焊管HFW熔合线宽度
Keywords:
welded pipe HFW fusion line width
分类号:
TG406
DOI:
10.19291/j.cnki.1001-3938.2017.06.011
文献标志码:
B
摘要:
为了合理地控制HFW焊管焊缝熔合线的宽度,提高焊管产品的焊接质量,以某规格3个钢级(B/X52/X60)高频焊管为例,按照API SPEC 5L及GB/T 9711的相关要求对焊缝性能进行了检测,分析了焊管母材化学成分对焊缝熔合线宽度及产品性能的影响。结果表明,HFW焊缝熔合线宽度随管线钢含C量下降而减小;对于焊接管线管,中部熔合线尺寸fn=0.02~0.08 mm,f0 /fn=1.9~2.3,有利于预防加热不充分导致的不良焊接,也利于氧化物正常排出,从而保证HFW焊管产品的质量。
Abstract:
In order to reasonably control the weld fusion line width of HFW pipe, increase the welding quality of welded pipe products, taking some specification three steel grade(B/X52/X60) HFW pipe as example, the weld properties were detected according to the relative requirements of API SPEC 5L and GB/T 9711. The results showed that HFW weld fusion line width reduce with pipeline steel carbon content reducing; for welded line pipe, the fusion line size(fn) of weld central section in the range of? 0.02~0.08 mm, f0/fn is in the range of 1.9~2.3, It is helpful to prevent the harmful welding caused by the insufficient heating, and also helpful to the normal discharge of the oxide, so as to guarantee the quality of HFW welded pipe products.

参考文献/References:

[1] 丰振军,曹峰,杨力能,等. 中国油井管研究进展[J]. 石油工业技术监督,2010, 26(7):52-53.
[2] 王宁,赵鹏,向双娣,等. 对我国油井管产业发展的几点认识[J]. 钢管,2011,40(3):12-16.
[3] 李晓红. 国际油井管发展及对我国油井管发展的建议[J]. 轧钢,1995(3):44-48.
[4] 刘建芳,刘科伟,陈建,等. 高频焊管的常见缺陷及预防措施实践[J]. 四川冶金,2013,35(4):59-63.
[5] 张洪凤. 高频焊管焊口裂缝的产生机理及预防[J]. 钢铁,1993(6):36-40.
[6] 张良,罗金恒,冯耀荣,等. X65级高频焊接钢管爆裂原因分析[J]. 理化检验: 物理分册,2011,47(2):116-119.
[7] 林里. 热处理工艺对HFW焊缝显微组织和力学性能的影响[J]. 焊管,2012,35(6):63-68.
[8] 毕洪运,陆明和. ERW直缝焊管焊缝形态与金相检验评价[J]. 宝钢技术,2006(3):23-26.
[9] 陈燕军,杨宴宾. 优化焊缝金相组织充分发挥石油用ERW管的技术经济优势[J]. 冶金标准化与质量,2012,50(3):18-21.
[10] 崔延,聂向晖,李云龙,等. ERW焊管焊缝冲击韧性的影响因素解析[J]. 热加工工艺,2011,40(23):177-179.

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备注/Memo

备注/Memo:
收稿日期: 2017-03-15
作者简介: 胡松林(1963—), 男, 高级工程师, 长期从事焊管生产、 产品研发与质量控制等工作。
更新日期/Last Update: