Instructions for Maleic Acid-Modified Chlorinated Vinyl Acetate Resin

1、PVC /Ac, Poly Star HF 14/60

Poly Star UM-CH Type is a terpolymer of vinyl chloride (VC), vinyl acetate (VAc) and a dicarboxylic acid (Maleic acid). Its main use is as a binder for surface coating compounds such as thin layer coating, Galvanized tin plate, can coating printing inks , Marine Paint , And Anti Corrosion Coating.

PVC /Ac, Poly Star HF 14/60

2、UMCH Resin Manufacturer China

UMCH Resin is a high-performance Carboxyl-Functional Vinyl Chloride/Vinyl Acetate/Maleic Acid Terpolymer, manufactured in China and widely used for coatings, adhesives, and printing ink applications.

3、VINYL CHLORIDE/VINYL ACETATE/MALEIC ACID TERPOLYMER

VINYL CHLORIDE/VINYL ACETATE/MALEIC ACID TERPOLYMER (CAS 9005-09-8) information, including chemical properties, structure, melting point, boiling point, density, formula, molecular weight, uses, prices, suppliers, SDS and more, available at Chemicalbook.

VINYL CHLORIDE/VINYL ACETATE/MALEIC ACID TERPOLYMER

VINYL CHLORIDE/VINYL ACETATE/MALEIC ACID

VINYL CHLORIDE/VINYL ACETATE/MALEIC ACID TERPOLYMER - 简介 2-丁烯二酸- (Z)-聚合物是一种含有氯乙烯和乙酸乙烯酯单体的聚合物。它的分子结构中含有双键形式为 (Z)-的2-丁烯二酸基团。性质： 1、耐热性：具有较好的耐高温性能，能够在高温下保持稳定性。

Vinyl resin,Vinyl Chloride

“SUNCOAT” series vinyl resin is a modified resin that combines the toughness and chemical resistance of vinyl chloride,strong adhesiveness and plasticity of vinyl acetate, and other polar groups that enhance adhesivity andsolubility.Due to its many outstanding characteristics, including it's film lack of odor or taste and high resistanceto ...

Technical Data Sheet

Technical information and data regarding the composition, properties or use of the products described herein is believed reliable. However, no representation or warranty is made with respect thereto except as made by Sp2 in writing at time of sale.

Shexian Sinfeng Chemical Co., Ltd.

In order to improve the solid share and the performance, this series of vinyl resin can be blended with other types of vinyl resin we use.

Vinyl chloride

SOLBIN is a modified resin that combines the toughness and chemical resistance of vinyl chloride, the strong adhesiveness and plasticity of vinyl acetate, and other polar groups that enhance adhesive properties and solubility.

UMCH Resin 55

UMCH Resin 55 by YangGuang Resin is a high molecular weight, carboxyl-functional terpolymer comprised of vinyl chloride, vinyl acetate and maleic acid. It provides good adhesion to vinyl, metals, concrete and cellulosic substrates.

MC39 Resin

As an accredited Vinyl Resin (MC39) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards. MC39 Resin is packaged in 25 kg net weight kraft paper bags with an inner plastic liner, clearly labeled for chemical use.

Maleic Acid-Modified Chlorinated Vinyl Acetate Resin

In the rapidly developing landscape of modern industry, materials science plays a pivotal role. As a novel high-performance material, maleic acid-modified chlorinated vinyl acetate resin has gradually become a focus in scientific research and industrial applications due to its unique chemical properties and broad application prospects. This article aims to explore in depth the properties, preparation methods, and practical application potential of maleic acid-modified chlorinated vinyl acetate resin.

Maleic acid-modified chlorinated vinyl acetate resin is a high molecular compound derived from chlorinated vinyl acetate resin through specialized treatment. Chlorinated vinyl acetate resin, produced by the polymerization of vinyl acetate monomers, is a thermosetting resin widely used in coatings, adhesives, composites, and other fields. Maleic acid, an organic acid containing two carboxyl groups, reacts chemically with chlorinated vinyl acetate resin, effectively grafting onto the resin’s molecular chains and endowing the material with new properties.

The key characteristics of maleic acid-modified chlorinated vinyl acetate resin include excellent mechanical properties, good chemical resistance and heat resistance, superior electrical insulation, and anti-aging performance. These features make it highly promising for applications in electronic encapsulation materials, automotive manufacturing, aerospace, and other advanced industries.

Various methods exist for preparing maleic acid-modified chlorinated vinyl acetate resin, with free radical polymerization being the most common. This approach uses initiators to trigger radical reactions in the resin system, enabling graft copolymerization between maleic acid and chlorinated vinyl acetate resin. Other techniques, such as ionic polymerization and solution polymerization, are also employed to synthesize this material.

In practical applications, maleic acid-modified chlorinated vinyl acetate resin has demonstrated exceptional performance. For instance, in electronic encapsulation, its outstanding electrical insulation and antistatic properties make it ideal for manufacturing circuit board substrates and encapsulation materials. In automotive manufacturing, its robust mechanical strength and chemical resistance have led to its use in interior and exterior automotive components.

challenges remain in both the synthesis and application of this material. First, the preparation process is relatively complex, requiring precise control of reaction conditions to achieve optimal performance. Second, its poor thermal stability limits usage in high-temperature environments, as the material tends to degrade or decompose under such conditions.

To address these challenges, researchers are exploring innovative solutions. Introducing copolymerization monomers or leveraging nanotechnology could enhance thermal stability and mechanical strength. Additionally, developing new catalysts or optimizing reaction conditions may further improve the material’s properties.

Looking ahead, with advancements in materials science and technology, maleic acid-modified chlorinated vinyl acetate resin is poised to unlock greater value across diverse fields. Whether in traditional industries or emerging technologies, this material holds significant promise as a driver of innovation.

As a cutting-edge high-performance material, maleic acid-modified chlorinated vinyl acetate resin has garnered attention in materials science due to its distinctive chemical properties and vast application potential. Through ongoing research and technological innovation, this material is expected to deliver substantial benefits and advancements to society.