NANOSCALE PROTECTION FOR HIGH-PERFORMANCE

Arman Fozdar; Ronald Lewar-chik; Ravireja Kommineni

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NANOSCALE PROTECTION FOR HIGH-PERFORMANCE

机译：纳米级保护高性能

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An innovative technology that offers improved performance, saves material and labour costs and eliminates the need for an epoxy primer coat.A single component polymeric penetrant reacts with the corroded base metal to form a long-lasting bond and increase the structure's useful service life.This coating technology has far-reaching potential, for example in off-shore applications, chemical processing and automotive re-finishes.Mild steel is one of the most used alloys for different kinds of applications because of its low cost, abundant supply and easy fabrication.But corrosion of steel is one of the major issues faced by transport(e.g.automobiles, aircraft, ships)and infrastruc-ture(e.g.pipelines, buildings, bridges, oil rigs, refineries)industry which directly affects its structural integrity, resulting in issues related to safety and maintenance of steel structures.According to the research published by NACE International [2], corrosion is responsible for losses over $ 2.5 trillion every year.There are different methods to counter corrosion such as, using corrosion inhibi-tive lining, electroplating, organic polymeric coating and chemical vapor deposition.Applying protective organic coatings to metallic substrate, especially aluminium and steel, is an effective way to protect those substrates against severe corrosive environments.Organic coatings can minimise corrosion of metallic substrates by three main mechanisms: barrier, sacrificial and inhibition.

机译：一种创新技术，可提供改进的性能，节省了材料和劳动力成本，并消除了对环氧底漆涂层的需求。一种单一组分聚合物渗透剂与腐蚀的基础金属反应，形成长持久的粘合，增加结构的使用寿命。这涂层技术具有深远的潜力，例如在离岸应用中，化学加工和汽车重新完成.Mild Steel是不同类型应用的合金之一，因为它的成本低，供应丰富和易于制造。但钢的腐蚀是运输（例如，EGAUTOMOBILE，飞机，船舶）和基础设施（EGPIPELINE，建筑物，桥梁，石油钻井平台，炼油厂）行业直接影响其结构完整性的主要问题之一，导致有关的问题为了安全和维护钢结构。根据NACE International发布的研究[2]，腐蚀负责超过2.5万亿美元的损失非常一年。采用腐蚀抑制衬里，电镀，有机聚合物涂层和化学气相沉积等不同方法。施加对金属基材，尤其是铝和钢的保护性有机涂层，是保护那些的有效方法对抗严重腐蚀性环境的基材。多种主要机制可以使金属基材的腐蚀最小化：屏障，牺牲和抑制。

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《European Coatings Journal》 |2019年第8期|共8页
作者
Arman Fozdar; Ronald Lewar-chik; Ravireja Kommineni;
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Chemical Dynamics LLC USA;

Chemical Dynamics LLC USA;

Chemical Dynamics LLC USA;

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正文语种 eng
中图分类涂料工业;
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1. NANOSCALE PROTECTION FOR HIGH-PERFORMANCE [J] . Arman Fozdar, Ronald Lewar-chik, Ravireja Kommineni European Coatings Journal . 2019,第7a8期

机译：纳米级保护高性能
2. New nanoscale band-to-band tunneling junctionless GNRFETs: potential high-performance devices for the ultrascaled regime [J] . Tamersit Khalil Journal of Computational Electronics . 2021,第3期

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3. Tailoring the sodium doped LiMnPO_4/C orthophosphate to nanoscale as a high-performance cathode for lithium ion battery [J] . Zhang Jun, Luo Shao-Hua, Ren Qun-Xiang, Applied Surface Science . 2020,第Nova15期

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4. Input ESD protection circuit design with special considerations for gate oxide protection in nanoscale technologies [C] . Guangyi Lu, Yuan Wang, Jian Cao, IEEE International Conference on Electron Devices and Solid-State Circuits . 2014

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5. Nanoscale Structure and Properties of High-Performance Polymer Fibers and Nanoreinforced High-Temperature Resins [D] . Stockdale, Taylor Adam. 2019

机译：高性能聚合物纤维的纳米级结构和性能和纳米因素的高温树脂
6. Graphene/ZnO Nanowire/p-GaN Vertical Junction fora High-Performance Nanoscale Light Source [O] . Fang Lin, Xin Liao, Chuan-Pu Liu, 2020

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7. High-performance flexible nanoscale transistors based on transition metal dichalcogenides [O] . Alwin Daus, Sam Vaziri, Victoria Chen, 2021

机译：基于过渡金属二甲基甲基化物的高性能柔性纳米级晶体管

NANOSCALE PROTECTION FOR HIGH-PERFORMANCE

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