[1]谢航超.输气管道内减阻涂料黏度对钢管内喷涂的影响[J].焊管,2014,37(8):59-62.[doi:1001-3938(2014)08-0059-04]
 XIE Hangchao.Influence on Steel Pipe internal Coating of Internal Resistance-reducing Coating Viscosity for Gas Pipeline[J].,2014,37(8):59-62.[doi:1001-3938(2014)08-0059-04]
点击复制

输气管道内减阻涂料黏度对钢管内喷涂的影响
分享到:

《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
37
期数:
2014年第8期
页码:
59-62
栏目:
经验交流
出版日期:
2014-08-28

文章信息/Info

Title:
Influence on Steel Pipe internal Coating of
Internal Resistance-reducing Coating Viscosity for Gas Pipeline
文章编号:
1001-3938(2014)08-0059-04
作者:
谢航超
(中油宝世顺(秦皇岛)钢管有限公司,河北 秦皇岛 066206)
Author(s):
XIE Hangchao
(Zhongyou (BSS) Qinhuangdao Petro-pipe Co., Ltd. of BSG Group, Qinhuangdao 066206, Hebei, China)
关键词:
焊管输气管道内减阻涂层钢管内喷涂黏度
Keywords:
welded pipe gas pipeline internal resistance-reducing coating steel pipe internal coating viscosity
分类号:
TG174.4423
DOI:
1001-3938(2014)08-0059-04
文献标志码:
B
摘要:
介绍了输气管道内减阻涂料的特点及相关标准对涂料性能的要求。结合钢管内喷涂工艺,分析了内减阻涂料黏度的变化对钢管内喷涂的影响,认为涂料黏度的变化是影响钢管内喷涂质量的重要因素之一。涂料温度较低时,应根据涂料温度的变化,采取适当的预热保温措施,可改善涂层厚度的差异,减少涂层质量缺陷的产生,提高涂料的利用率。结果表明,采取适当的预热保温措施后,改善了涂层质量,减少了内涂料的单位面积消耗,从而降低了管道内防腐层成本。
Abstract:
In this article, it introduced the characteristics of internal resistance-reducing coating and the requirements to coating performance in the corresponding standards. Combing with steel pipe internal coating process, it analyzed the influence of viscosity change on steel pipe internal coating, and regarded that the influence of viscosity change is one of the important factors for steel pipe coating. When the coating temperature is low, based on the change of coating temperature, it should adopt proper preheating temperature preservation measures, to improve the coating thickness difference , to reduce quality defects , and enhance the utilization efficiency of coating material. The results indicated that adopting proper preheating temperature preservation measure, it can improve the quality of coating and reduce the material consumption of per unit area of the internal coating, thus to low the cost of internal coating.

参考文献/References:

[1] 张丽萍.涂料粘度的测量及对施工性能的影响[J]. 涂料涂装与电镀,2004,2(02):44-47.
[2] API RP 5L2—2002,非腐蚀性气体输送管道内覆盖层推荐准则[S].
[3] 林竹.减阻型涂料在天然气管道中的应用[J]. 焊管,2002,25(06):1-4.
[4] 崔超.内减阻技术简述及涂层缺陷与对策[J].现代涂料与涂装,2007,10(07):50-52.
[5] 胡士信.西气东输干线管道减阻内涂技术[J].材料保护,2001,34(10):1-4.
[6] 黄本生.油气集输管道内涂层技术的现状及发展趋势[J]. 腐蚀科学与防护技术,2012,24(02):345-348.
[7] 腾燕.高压无气喷涂涂料雾化特性实验研究[J].表面技术,2011(06):75-77.
[8] 林竹.长输天然气管道内涂层减阻试验研究[J].天然气工业,2002,22(01):75-79.
[9] GB/T 1723—1993,涂料粘度测定方法[S].
[10]屠振文.涂料粘度极其测定方法[J].上海涂料,2006,44(02):31-33.

相似文献/References:

[1]马海君.强力焊管的孔型设计[J].焊管,2007,30(4):56.[doi:1001-3938(2007)04-0056-02]
 MA Hai-jun.Pass Design of High-strength Welded Pipe[J].,2007,30(8):56.[doi:1001-3938(2007)04-0056-02]
[2]刘庆才,李 东,黎剑锋.影响输气管线钢管抗H2S性能主要因素的探讨[J].焊管,2007,30(5):54.[doi:1001-3938(2007)05-0054-05]
 LIU Qing-cai,LI Dong,LI Jian-feng.Key Factors Affecting Sour Service Ability of Welded Pipe and Its Domestic Production[J].,2007,30(8):54.[doi:1001-3938(2007)05-0054-05]
[3]黄志潜.遵循正确的技术方向 合理确定西气东输二线技术方案[J].焊管,2007,30(6):5.[doi:1001-3938(2007)06-0005-06]
 HUANG Zhi-qian.Rationally Design the Technical Parameters for the Second WEGP Project Based on the Verified Developing Trend of Technology[J].,2007,30(8):5.[doi:1001-3938(2007)06-0005-06]
[4]Satoshi IGI 伊木.中国西气东输二线管道延性断裂分析(一)[J].焊管,2008,31(2):23.[doi:1001-3938(2008)02-0023-04]
 Satoshi IGI.Analysis on Ductile Fracture of the Second West to East Gas Pipeline Project[J].,2008,31(8):23.[doi:1001-3938(2008)02-0023-04]
[5]Satoshi IGI 伊木.中国西气东输二线管道延性断裂分析(二)[J].焊管,2008,31(3):33.[doi:1001-3938(2008)03-0033-06]
 Satoshi IGI.Analysis on Ductile Fracture of the Second West to East Gas Pipeline Project[J].,2008,31(8):33.[doi:1001-3938(2008)03-0033-06]
[6]彭在美.我国焊接钢管的发展进入重要的战略转折期[J].焊管,2008,31(6):5.[doi:1001-3938(2008)06-0005-10]
 PENG Zai-mei.The Development of China Welded Pipe Steps into the Important Strategic Transition Period[J].,2008,31(8):5.[doi:1001-3938(2008)06-0005-10]
[7]李霄,熊庆人,石凯,等.焊管残余应力研究进展及展望[J].焊管,2009,32(7):12.[doi:1001-3938(2009)07-0012-06]
 LI Xiao,XIONG Qing-ren,SHI Kai,et al.Research Progress and Prospect of Residual Stress in Welded Pipe[J].,2009,32(8):12.[doi:1001-3938(2009)07-0012-06]
[8]马 露 涛.φ720mm焊管平头机夹管装置设计[J].焊管,2009,32(9):47.[doi:1001-3938(2009)09-0047-03]
 MA Lu-tao.Design for φ720mm Welded Pipe Beveling Machine Clamp Pipe Device[J].,2009,32(8):47.[doi:1001-3938(2009)09-0047-03]
[9]耿开博.铝管、不锈钢管的高频感应焊接[J].焊管,2009,32(11):29.[doi:1001-3938(2009)11-0029-03]
 GENG Kai-bo.High-frequency Induction Welding of Aluminum and Stainless Steel Pipes[J].,2009,32(8):29.[doi:1001-3938(2009)11-0029-03]
[10]陈志翔,Jean Paul Boillot,Jeff Noruk.数字激光视觉技术在焊管生产中的应用[J].焊管,2010,33(2):29.[doi:1001-3938(2010)02-0029-04]
 CHEN Zhi-xiang,Jean Paul Boillot,Jeff Noruk.Application of Digital Laser Vision Technology in Welded Pipe Production[J].,2010,33(8):29.[doi:1001-3938(2010)02-0029-04]
[11]许贵芝 编译.大直径输气管道焊接热循环的复制研究[J].焊管,2014,37(9):69.[doi:1001-3938(2014)09-0069-04]
 Edited and Translated by XU Guizhi.Research on Welding Thermal Cycle Replication of Large Diameter Gas Pipeline[J].,2014,37(8):69.[doi:1001-3938(2014)09-0069-04]
[12]杨继平,毛浓召,杜 华,等.输气管道内壁无溶剂内减阻环氧涂层的应用研究[J].焊管,2015,38(1):33.[doi:1001-3938(2015)01-0033-05]
 YANG Jiping,MAO Nongzhao,DU Hua,et al.Study on the Application of Solvent-free Inner Resistance-reducing Epoxy Coating Used in Gas Pipeline Internal Wall[J].,2015,38(8):33.[doi:1001-3938(2015)01-0033-05]

备注/Memo

备注/Memo:
收稿日期:2014-04-18
作者简介:谢航超(1984—),男,本科,助理工程师,主要从事防腐工艺及质量工作。
更新日期/Last Update: