1、Characterization and stability of innovative modified nanosilica
In this work, a modified nanosilica-resin composite coating was developed. The coating comprises a surface modified nanosilica layer and a resin layer at the bottom, providing a “double impermeability” function against small-molecule alkane oils.
2、Silicone Modified Polyester: The Future of High
Silicone modified polyester blends traditional polyester resins with silicone polymers. This fusion creates a material that’s stronger, more flexible, and resistant to extreme conditions.
3、Overview of Recent Developments in Composite Epoxy Resin in
This review focuses on recent advancements in composite epoxy resin coatings for steel from 2020 to 2024, emphasizing improvements in anti-corrosion performance through various additive modifications.
4、Advances in Waterborne Acrylic Resins: Synthesis Principle
In this paper, we introduce the method to synthesize waterborne acrylic resins, the composition of the resin, and basic properties of each monomer.
Development of waterborne epoxy
This work aims to develop a waterborne epoxy coating incorporated with modified natural rubber (NR) latex for improved performance. For this purpose, the NR latex was modified into three types...
Modified epoxy coating_化工百科
Modified epoxy coating(改性环氧树脂涂料)是一种特殊的涂层材料,具有以下性质: 耐化学腐蚀性能:改性环氧树脂涂层具有优异的耐化学腐蚀性能,可以防止化学物质侵蚀对基材的破坏。
Preparation and properties of modified SiO2/epoxy resin
In this study, a superhydrophobic coating with excellent mechanical durability, chemical stability, anti-icing property and self-cleaning property was developed based on epoxy resin integrated with modified SiO 2 nanoparticles (m-SiO 2 NPs).
Silicone Resin Applications for Heat
Silicone resins, which exhibits excellent heat-resistance, chemical stability and adhesion, are indispensable components in high temperature resistance coatings. Herein, we summarize a comprehensive survey of developments on heat-resistant silicone-based coatings.
Protective effect of silicone
Herein, a silicone-modified epoxy resin coating was designed with the aim of reducing the rate of SRB-induced corrosion. The epoxy resin (E-51) was modified with heptamethyltrisiloxane and 3-aminopropyltriethoxysilane (APTES).
Research and Application Progress of Silicone
Epoxy resin coatings are widely used in the field of material surface protection due to their good adhesion and excellent mechanical properties.Silicone-modified epoxy resin coatings can improve the toughness, hydrophobicity, corrosion resistance and anti-friction and antiwear properties of epoxy resin while retaining its own properties ...
In modern industrial and construction fields, advancements in material science have revolutionized surface treatments for various products. Among these innovations, modified resin coatings play a crucial role due to their unique performance characteristics. This article explores the concept, properties, and practical applications of modified resin coatings in depth.
Modified resin coating refers to coatings derived from conventional resins that have been modified through chemical or physical methods to enhance or introduce new properties. These coatings significantly improve durability, corrosion resistance, wear resistance, and aesthetic appeal, enabling superior performance across diverse applications.
The primary functions of modified resin coatings include enhancing corrosion resistance, improving adhesion to substrates, extending service life, and providing decorative finishes. These attributes have led to widespread adoption in automotive manufacturing, shipbuilding, petrochemical equipment, bridge construction, architectural decoration, and more.
Firstly, modified resin coatings effectively resist external corrosion. For example, in marine environments, seawater salts and chemicals corrode metal surfaces. A modified resin coating forms a protective barrier, isolating moisture and oxygen from direct contact with metal, thereby reducing corrosion. Additionally, these coatings exhibit excellent temperature resistance and chemical stability, maintaining performance under extreme conditions.
Secondly, modified resin coatings enhance wear resistance and impact resistance. For components subjected to heavy loads or frequent friction—such as bearings or gears—these coatings minimize wear, prolonging lifespan. Their strong adhesion and flexibility also accommodate minor surface changes in substrates, ensuring coating integrity.
modified resin coatings offer high decorative value. By adjusting color, gloss, and texture, products gain aesthetic appeal, catering to consumer preferences. Incorporating antibacterial or antifungal agents further boosts health and safety.
modified resin coatings are not flawless. Environmental concerns arise, as some formulations contain heavy metals or volatile organic compounds (VOCs), necessitating eco-friendly application measures. Additionally, coating thickness and weight might impact equipment operation, requiring careful design and implementation.
modified resin coatings are versatile and valuable materials. Understanding their properties and applications enables optimal use in modern industries and construction, enriching human life.
