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首页> 外文期刊>Applied Surface Science >Corrosion protection properties and interfacial adhesion mechanism of an epoxy/polyamide coating applied on the steel surface decorated with cerium oxide nanofilm: Complementary experimental, molecular dynamics (MD) and first principle quantum mechanics (QM) simulation methods
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Corrosion protection properties and interfacial adhesion mechanism of an epoxy/polyamide coating applied on the steel surface decorated with cerium oxide nanofilm: Complementary experimental, molecular dynamics (MD) and first principle quantum mechanics (QM) simulation methods

机译:氧化铈纳米膜装饰的钢表面上的环氧/聚酰胺涂层的腐蚀防护性能和界面粘附机理:补充实验,分子动力学(MD)和第一原理量子力学(QM)模拟方法

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The effect of cerium oxide treatment on the corrosion protection properties and interfacial interaction of steel/epoxy was studied by electrochemical impedance spectroscopy, (EIS) classical molecular dynamics (MD) and first principle quantum mechanics (QM) simulation methods X-ray photoelectron spectroscopy (XPS) was used to verify the chemical composition of the Ce film deposited on the steel. To probe the role of the curing agent in epoxy adsorption, computations were compared for an epoxy, aminoamide and aminoamide modified epoxy. Moreover, to study the influence of water on interfacial interactions the MD simulations were executed for poly (aminoamide)-cured epoxy resin in contact with the different crystallographic cerium dioxide (ceria, CeO2) surfaces including (100), (110), and (111) in the presence of water molecules. It was found that aminoamide-cured epoxy material was strongly adhered to all types of CeO2 substrates, so that binding to ceria surfaces followed the decreasing order CeO2 (111) > CeO2 (100) > CeO2 (110) in both dry and wet environments. Calculation of interaction energies noticed an enhanced adhesion to metal surface due to aminoamide curing of epoxy resin; where facets (100) and (111) revealed electrostatic and Lewis acid-base interactions, while an additional hydrogen bonding interaction was identified for CeO2 (110). Overall, MD simulations suggested decrement of adhesion to CeO2 in wet environment compared to dry conditions. Additionally, contact angle, pull-off test, cathodic delamination and salt spray analyses were used to confirm the simulation results. The experimental results in line with modeling results revealed that Ce layer deposited on steel enhanced substrate surface free energy, work of adhesion, and interfacial adhesion strength of the epoxy coating. Furthermore, decrement of adhesion of epoxy to CeO2 in presence of water was affirmed by experimental results. EIS results revealed remarkable enhancement of the corrosion resistance of epoxy coating applied on the steel specimens treated by cerium oxide. (C) 2017 Elsevier B.V. All rights reserved.
机译:通过电化学阻抗谱(EIS),经典分子动力学(MD)和第一原理量子力学(QM)模拟方法X射线光电子能谱研究了氧化铈处理对钢/环氧树脂的腐蚀防护性能和界面相互作用的影响( XPS)用于验证沉积在钢上的Ce膜的化学成分。为了探讨固化剂在环氧吸附中的作用,比较了环氧,氨基酰胺和氨基酰胺改性环氧的计算结果。此外,为了研究水对界面相互作用的影响,对聚(氨基酰胺)固化的环氧树脂与不同晶体学的二氧化铈(二氧化铈,CeO2)表面(包括(100),(110)和( 111)在水分子存在下。发现氨基酰胺固化的环氧材料牢固地粘附到所有类型的CeO2基材上,因此在干燥和潮湿环境中,对二氧化铈表面的粘合遵循CeO2(111)> CeO2(100)> CeO2(110)的降序排列。相互作用能的计算发现由于环氧树脂的氨基酰胺固化,增强了其与金属表面的附着力。其中小面(100)和(111)显示出静电和路易斯酸碱相互作用,而CeO2(110)则发现了另外的氢键相互作用。总体而言,MD模拟表明与干燥条件相比,在潮湿环境中对CeO2的附着力降低。另外,使用接触角,拉拔试验,阴极分层和盐雾分析来确认模拟结果。与模型结果一致的实验结果表明,沉积在钢上的Ce层增强了环氧涂层的基材表面自由能,粘附功和界面粘附强度。此外,实验结果证实了在水存在下环氧树脂对CeO2的粘附力降低。 EIS结果表明,在氧化铈处理的钢试样上施加的环氧涂层的耐腐蚀性显着提高。 (C)2017 Elsevier B.V.保留所有权利。

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