1、乙酸乙烯酯_百度百科

乙酸乙烯酯（Vinyl Acetate）又称醋酸乙烯酯、乙烯基乙酸酯、乙烯乙酸等，它是一种有机化合物，其分子式为C4H6O2，相对分子质量为86.09。 乙酸乙烯酯为无色液体，具有甜的醚味，微溶于水，可溶于醇、丙酮、苯、氯仿。

2、Vinyl acetate_化工百科

Vinyl acetate - 用途 1、主要用作制造合成纤维维尼纶的原料，也是EVA等多种共聚树脂的组分。 2、醋酸乙烯酯的聚合物——聚醋酸乙烯衍生物及聚乙烯醇广泛用作黏结剂、建筑涂料、纺织品上浆剂和整理剂、纸张增强剂，以及用于制造安全玻璃等。

3、108

物化性质：性状 无色易燃液体，有甜的醚香味。 溶解性 与乙醇混溶，能溶于乙醚、丙酮、氯仿、四氯化碳等有机溶剂，不溶于水。

Vinyl acetate CAS#: 108

ChemicalBook 致力于为化学行业用户提供Vinyl acetate的性质、化学式、分子式、比重、密度,同时也包括Vinyl acetate的沸点、熔点、MSDS、用途、作用、毒性、价格、生产厂家、用途、上游原料、下游产品等信息。

vinyl acetate

VINYL CHLORIDE/VINYL ACETATE COPOLYMER 线性分子式: C6H9ClO2 CAS No.: 9003-22-9

VINYL_ACETATE

CAS号查询致力于为化学行业用户免费提供VINYL_ACETATE的CAS号、中文名称、英文名称相互转换服务,同时也包括VINYL_ACETATE的性质、化学式、分子结构、密度、熔点、沸点等信息。

小科普一Vinyl Acetate【有机化学吧】_百度贴吧

小科普一Vinyl ..乙酸乙烯酯，又名醋酸乙烯酯，又名醋酸乙烯，是一种有机化合物，化学式为C4H6O2，是重要的有机化工原料。

Vinyl acetate copolymer_化工百科

Vinyl acetate copolymer - 简介 醋酸乙烯酯共聚物是一种合成树脂，由醋酸乙烯酯和其他单体共聚而成。 它具有以下性质： 化学性质：它具有良好的溶解性，在溶剂中能形成透明的溶液。 它可以与其他树脂和添加剂相容，使其具有可调节的特性。

乙酸乙烯酯的聚合物_百度百科

乙酸乙烯酯的聚合物，英文名是2-Butenedioic acid (2E)-, di-C8-18-alkyl esters, polymers with vinyl acetate，是一种化学物质，化学式为C8H10O6。

Vinyl acetate*

VINYL CHLORIDE/VINYL ACETATE COPOLYMER 线性分子式: C6H9ClO2 CAS No.: 9003-22-9 分子量: 148.59 ... 所有图片(1)

In modern society, with the rapid development of technology and the continuous improvement of people's living standards, the demand for various chemical substances in daily life is growing. Among them, vinyl acetate, as an important organic chemical raw material, has become the focus of attention for numerous enterprises and research institutions due to its unique chemical properties and wide range of applications.

Vinyl acetate, chemically known as the esterification product of ethylene and acetic acid, contains a vinyl group (-CH=CH-) and a carboxyl group (-COOH) in its molecular structure, giving it diverse chemical reactivity. This compound is not only widely used in industrial production, such as a synthetic monomer for high-polymer materials like plastics, rubber, and coatings, but also plays a significant role in fields like medicine and agriculture.

From a production perspective, the manufacturing processes for vinyl acetate vary, but primarily involve the direct esterification reaction between ethylene and acetic acid. This process typically requires a catalyst to lower the reaction temperature and improve yield. this method also faces challenges related to environmental pollution and resource consumption, necessitating continuous optimization to enhance economic efficiency and environmental standards.

In terms of applications, vinyl acetate is extensively used in construction coatings, waterproof materials, and adhesives due to its excellent film-forming properties, adhesion, and water resistance. These products are indispensable in industries such as construction, automotive, and shipbuilding, providing convenience and safety assurance for people's lives.

Additionally, vinyl acetate exhibits antibacterial and antiviral properties, which have garnered attention and applications in the healthcare sector. For example, it can prevent infections by inhibiting bacterial growth or be used to manufacture new biodegradable materials, reducing environmental pollution.

despite its promising prospects, the production and use of vinyl acetate also pose challenges. On one hand, harmful substances like volatile organic compounds (VOCs) may be generated during production, impacting the environment and human health. On the other hand, due to its flammable and explosive nature, strict safety measures are required during handling and storage.

To address these issues, many enterprises and research institutions are actively exploring more environmentally friendly and safer production methods. For instance, developing low-toxicity or non-toxic catalysts to reduce hazardous emissions, adopting closed systems and automated equipment to improve efficiency while minimizing safety risks, and researching new application pathways to broaden the uses of vinyl acetate.

Looking ahead, with advancements in technology and growing environmental awareness, the production and application of vinyl acetate will trend toward greener and more efficient directions. Through technological innovation and management improvements, existing challenges are expected to be resolved, enabling its widespread adoption across industries. Meanwhile, for consumers, understanding the characteristics and potential value of vinyl acetate and making informed choices about related products are crucial for safeguarding their rights and promoting sustainable development.

vinyl acetate, as a chemical substance with vast application potential, requires adequate attention to its production and usage challenges. With scientific and technological breakthroughs coupled with management enhancements, we have reason to believe that vinyl acetate will play an even greater role in driving economic growth and societal progress in the future.