[1]蒲夢雅,張建偉,易建軍,等.輸水管道無溶劑環氧內涂層與溶劑型內涂層性能對比分析[J].焊管,2020,43(1):60-64.[doi:10.19291/j.cnki.1001-3938.2020.01.012]
 PU Mengya,ZHANG Jianwei,YI Jianjun,et al.Comparative Analysis on Properties of Solvent-free Expoxy Inner Coating and Solvent Inner Coating for Water Pipeline[J].,2020,43(1):60-64.[doi:10.19291/j.cnki.1001-3938.2020.01.012]
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輸水管道無溶劑環氧內涂層與
溶劑型內涂層性能對比分析
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《焊管》[ISSN:1001-3938/CN:61-1160/TE]

卷:
43
期數:
2020年第1期
頁碼:
60-64
欄目:
經驗交流
出版日期:
2020-01-28

文章信息/Info

Title:
Comparative Analysis on Properties of Solvent-free Expoxy Inner Coating and
  Solvent Inner Coating for Water Pipeline
文章編號:
10.19291/j.cnki.1001-3938.2020.01.012
作者:
蒲夢雅張建偉易建軍彭 彬肖 岱羅小波冉軼杰
資陽石油鋼管有限公司, 四川 資陽 641300
Author(s):
PU Mengya ZHANG Jianwei YI Jianjun PENG Bin XIAO Dai LUO Xiaobo RAN Yijie
Ziyang Petroleum Steel Pipe Co., Ltd., Ziyang 641300, Sichuan, China
關鍵詞:
輸水鋼管防腐無溶劑環氧內涂技術溶劑型內涂技術性能分析
Keywords:
water pipeline coating solvent-free epoxy inner coating technologysolvent inner coating technologyperformance analysis
分類號:
TG174.4
DOI:
10.19291/j.cnki.1001-3938.2020.01.012
文獻標志碼:
B
摘要:
為了確定以IPN8710為代表的溶劑型涂料和無溶劑環氧涂料防腐性能的優劣,從涂料成分、噴涂工藝、生產成本方面進行了分析對比,并對IPN8710-3N溶劑型涂料和SF-G無溶劑環氧涂料的涂層進行了孔隙率、吸水率和-30 ℃抗彎曲試驗。結果表明,與溶劑型內涂技術相比,無溶劑內涂技術得到的防腐涂層的漆膜致密性更好,涂層微型孔隙更少,吸水率更低,因此防腐效果更好;無溶劑內涂技術在噴涂過程中無有機溶劑揮發,安全環保,噴涂效率更高。
Abstract:
In order to determine the anti-corrosion performance of IPN8710 solvent coating and solvent-free epoxy coating,the coating composition,spraying process and production cost were analyzed and compared. The porosity,water absorption and -30 ℃ bending resistance of IPN8710-3N solvent coating and SF-G solvent-free coating were tested. The results show that compared with the inner solvent coating technology,the anti-corrosion coating obtained by the solvent-free coating technology has better film compactness, less micro pores and lower water absorption, so the anti-corrosion effect is better. Solvent-free inner coating technology in the spraying process doesn’t volatile the organic solvent. It is safe and can protect the environment. Its spraying efficiency is higher.

參考文獻/References:

[1] 趙洪濤,陸衛中,李京,等. 無溶劑環氧防腐涂層在模擬海水沖刷條件下的電化學行為[J]. 中國腐蝕與防護學報,2016,36(4):295-305.
[2] 於慶豐. 無溶劑環氧涂料在川氣東送管道彎管防腐的應用[J]. 中國高新技術企業,2009(6):31-32.
[3] GB/T 31361—2015,無溶劑環氧液體涂料的防腐蝕涂裝[S].
[4] SY/T 0315—2013,鋼質管道熔結環氧粉末外涂層技術規范[S].
[5] 梅奇,文學,沈波. 無溶劑環氧涂料內涂層技術在輸鹵管道工程中的應用[J]. 腐蝕與防護,2006(1):32-34.
[6] 張雅潔,劉學勤. 無溶劑液體環氧管道內防腐技術[J]. 油田地面工程,2015,34(11):82-84.
[7] 楊雙春.管道內防腐技術研究進展[J]. 當代化工,2012,41(11):1242-1245.
[8] 趙洪濤,陸衛中,李京. 無溶劑環氧涂層在不同流速的3.5%NaCl溶液中的吸水性研究[J]. 材料保護,2016,49(10):35-41.

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備注/Memo

備注/Memo:
收稿日期:2019-05-14
作者簡介:蒲夢雅(1986—),女,碩士,工程師,主要從事鋼管防腐工藝及檢測研究工作。
更新日期/Last Update: 2020-02-21
陕西快乐十分前三直走势图