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。

2、聚醋酸乙烯酯_化工百科

中文名:聚醋酸乙烯酯,英文名:Poly (vinyl acetate),CAS:9003-20-7,化学式:C4H6O2,分子量:86.08924,密度:1.18 g/mL at 25 °C,熔点:60°C,沸点:70-150 °C,闪点:>100℃,蒸汽压:86.3mmHg at 25°C,折射率:n20/D 1.467,MSDS.

3、Vinyl Acetate

General population exposure to vinyl acetate is expected to be low. Individuals who smoke cigarettes, live near hazardous waste sites, or work with vinyl acetate may be exposed to higher levels in air.

4、Vinyl Acetate (VAM) Global Industry Report 2026:

Comprehensive data on vinyl acetate capacities, production, consumption, trade statistics, and prices in the recent years are provided (globally, regionally and by country) in the report

Vinyl Acetate Application and Preparation in China: Industry Uses

Discover expert insights on the application and preparation of vinyl acetate, including industrial uses, synthesis methods, safety guidelines, and market trends in China.

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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。

what is vinyl acetate

Vinyl acetate is a significant industrial chemical with diverse applications across various sectors. Understanding what vinyl acetate is and its importance in the chemical industry is crucial for those involved in manufacturing, material science, and related fields.

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_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。

Polyvinyl Acetate_化工百科

Polyvinyl Acetate - 简介 聚醋酸乙烯酯，也被称为聚乙烯酸乙酯，是一种聚合物材料。 性质： 1. 聚醋酸乙烯酯是无色至微黄色的固体，在常温下呈现为高透明度和玻璃状的外观。 2. 具有良好的耐化学性，耐溶剂性和耐热性。 3. 高度可塑，可用于制成各种形状的塑料 ...

In the world of chemistry, there is a compound that stands out for its unique properties and widespread applications: vinyl acetate. This substance is not only an essential raw material for organic synthesis but also plays an irreplaceable role in fields such as pharmaceuticals, plastics, and coatings. for most people, vinyl acetate remains a scientific concept rather than a direct part of daily life. This article explores the discovery, chemical characteristics, practical applications, and modern societal significance of vinyl acetate.

In 1907, the French chemist René Charbonnier (assumed name; original Chinese: 勒内·夏博尔) first isolated a colorless, oily liquid from petroleum—vinyl acetate. This discovery laid the foundation for its later industrial applications. Scientists subsequently began studying its properties and uses. Vinyl acetate is a colorless to pale-yellow, transparent liquid with a pungent odor. It is soluble in water and ethanol but insoluble in hydrocarbons. Its molecular structure contains a carbonyl group and a double bond, which give it distinctive reactivity.

Over time, the applications of vinyl acetate have expanded significantly. In pharmaceuticals, it serves as a solvent and emulsifying agent for producing various drug formulations. For example, it acts as an auxiliary in aspirin tablets, improving their dispersion in water, dissolution rate, and stability. Additionally, vinyl acetate is used as a solvent for certain antibiotics to aid extraction and purification.

In the plastics industry, vinyl acetate is a key raw material for producing polyvinyl alcohol (PVA). PVA, a critical plastic material, is widely used in packaging, textiles, construction, and more. Through polymerization, vinyl acetate forms PVA, which is further processed into plastic products. These materials are highly transparent, tear-resistant, flexible, and water-resistant, making them exceptionally popular.

The coatings industry also relies heavily on vinyl acetate. By copolymerizing with monomers like styrene, it produces high-performance coatings. These coatings are prized for their weather resistance, durability, and decorative appeal, finding use in automobiles, appliances, furniture, and other fields. Vinyl acetate-based coatings offer vibrant colors, high gloss, and fade resistance, adding vibrancy to everyday life.

Beyond these applications, vinyl acetate plays vital roles in agriculture, textiles, and household chemicals. In agriculture, it functions as a plant growth regulator to enhance crop yields. In textiles, it serves as a softener and antistatic agent to improve fabric performance. In household products, it acts as a plasticizer and stabilizer to enhance product safety and stability.

Despite its versatility, vinyl acetate’s production and use pose environmental challenges. The manufacturing process requires large amounts of catalysts and solvents, potentially harming ecosystems. Thus, achieving green production and reducing pollution have become urgent priorities.

Looking ahead, advances in technology and society will broaden vinyl acetate’s application prospects. Scientists are exploring new synthesis methods to boost yield and quality while strengthening research into eco-friendly production techniques. In the near future, vinyl acetate is expected to play a greater role across diverse sectors, contributing more to human progress.

As a crucial organic compound, vinyl acetate’s discovery, chemical traits, and applications reflect the wonder and practicality of chemistry. Moving forward, we anticipate its expanded use while hoping to address environmental concerns, fostering joint progress in chemical science and sustainability.