提升输油管道防腐效果的环氧粉末涂料材料制备
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摘要
目前环境污染已经成为人们关注的重点问题,传统涂料中包含一定的环境污染因素,因此需要对其进行有效控制。采用线型酚醛环氧树脂(ENR)、环氧树脂E-12、固化剂JECP-02B制备了输油管线用熔结环氧粉末涂料。考察了线型酚醛环氧树脂与环氧树脂E-12质量比对涂料性能的影响,以及固化剂JECP-02B、流平剂GLP588和固化促进剂2-甲基咪唑对固化行为的影响,用红外光谱分析了固化前后树脂的变化,m(ENR)/m(E-12)=(70/20)~(20/80)、m(固化剂)/m(环氧树脂)=1/4、m(流平剂)/m(环氧树脂)=2/100、m(2-甲基咪唑)/m(环氧树脂)=(0.1~0.18)/100时,涂层性能达到输油管线防腐指标(SY/T0315-97)。
At present,environmental pollution has become a key issue of concern.Traditional coatings contain certain environmental pollution factors,so they need to be effectively controlled.A sintered epoxy powder coating for oil pipelines was prepared by using linear novolac epoxy resin(ENR),epoxy resin E-12,and curing agent JECP-02 B.The effect of the mass ratio of novolac epoxy resin and epoxy resin E-12 on the properties of the coating was investigated,as well as the effect of curing agent JECP-02 B,leveling agent GLP588 and curing accelerator 2-methylimidazole on the curing behavior.The change of resin before and after curing was analyzed by infrared spectroscopy.When m(ENR)/m(E-12)=(70/20)~(20/80),m(curing agent)/m(epoxy resin)=1/4,m(leveling agent)/m(epoxy resin)=2/100,m(2-methylimidazole)/m(epoxy resin)=(0.1-0.1 8)/100,the coating performance reached the anticorrosion index of oil pipeline(SY/T 0315-97).
At present,environmental pollution has become a key issue of concern.Traditional coatings contain certain environmental pollution factors,so they need to be effectively controlled.A sintered epoxy powder coating for oil pipelines was prepared by using linear novolac epoxy resin(ENR),epoxy resin E-12,and curing agent JECP-02 B.The effect of the mass ratio of novolac epoxy resin and epoxy resin E-12 on the properties of the coating was investigated,as well as the effect of curing agent JECP-02 B,leveling agent GLP588 and curing accelerator 2-methylimidazole on the curing behavior.The change of resin before and after curing was analyzed by infrared spectroscopy.When m(ENR)/m(E-12)=(70/20)~(20/80),m(curing agent)/m(epoxy resin)=1/4,m(leveling agent)/m(epoxy resin)=2/100,m(2-methylimidazole)/m(epoxy resin)=(0.1-0.1 8)/100,the coating performance reached the anticorrosion index of oil pipeline(SY/T 0315-97).
引文
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[9]张海宽,王鹏,张鹏,等.环氧树脂对深海设备复杂结构防腐用填充材料的吸水行为影响研究[J].全面腐蚀控制, 2015(12):34~38.
[10]夏一峰,钱小群,黄武.输油输气管道防腐的重要性——以青岛爆炸事故为例[J].消防界:电子版, 2016(5):78~79.
[2]刘玉昆,周伟,崔志刚.环氧粉末防腐涂层耐温度循环实验的影响因素及检测设备[J].涂层与防护,2018,39(4):37~43.
[3]吴希革.SY/T 0315—2013《钢质管道熔结环氧粉末外涂层技术规范》解析及解决方案(之一)[J].涂层与防护,2018,39(4):26~31.
[4]喻林.管道防腐粉末涂料用环氧树脂的研制[J].涂料技术与文摘, 2014(12):22~23.
[5]杨治强,周伟,杨旭.一种新型超耐候防腐粉末涂料的研制[J].涂料技术与文摘, 2016, 37(5):24~27.
[6]吴希革.改性环氧粉末涂层在酸性油气田管道内防腐的应用[J].涂料技术与文摘, 2014(12):11~13.
[7]杨宪一.我国粉末涂料用环氧树脂市场现状与前景分析[J].热固性树脂, 2014(3):59~61.
[8]王彦青,肖剑烽.关于输油管道阴极保护防腐技术的探析[J].科技创新与应用, 2016(19):115~115.
[9]张海宽,王鹏,张鹏,等.环氧树脂对深海设备复杂结构防腐用填充材料的吸水行为影响研究[J].全面腐蚀控制, 2015(12):34~38.
[10]夏一峰,钱小群,黄武.输油输气管道防腐的重要性——以青岛爆炸事故为例[J].消防界:电子版, 2016(5):78~79.
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