1、Vinyl acetate_化工百科

中文名:醋酸乙烯酯,英文名:Vinyl acetate,CAS:108-05-4,化学式:C4H6O2,分子量:86.09,密度:0.934 g/mL at 25 °C (lit.),熔点:-93 °C (lit.),沸点:72-73 °C (lit.),闪点:20°F,水溶性:23 g/L (20 ºC),蒸汽压:88 mm Hg ( 20 °C),折射率:n20/D 1.395 (lit.),MSDS.

2、Vinyl Acetate

Vinyl acetate (VAM) is a colorless, flammable and volatile liquid with a boiling point of 72-73 degrees C. Practically all use is as a vinyl monomer to produce polyvinyl acetate homopolymers and copolymers.

3、The Nomenclature of Vinyl Acetate

For vinyl acetate, an organic compound, its nomenclature not only reflects its chemical structure but also encapsulates rich scientific information. This article explores the naming process of vinyl acetate and how its name conveys its unique chemical properties and applications.

4、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。

5、Acetic acid ethenyl ester

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Vinyl Acetate

Vinyl acetate is used in the production of a wide range of polymers, including polyvinyl acetate, polyvinyl alcohol, polyvinyl acetals, ethylene–vinyl acetate copolymers and polyvinyl chloride–vinyl acetate copolymers, which are widely used in the production of adhesives, paints and food packaging.

VINYL ACETATE

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Chemistry — Vinyl Acetate Council

Chemical Name: Vinyl Acetate Synonyms: Vinyl Ester Acetic Acid, Ethenyl Ester, Vinyl Acetate Monomer, VAM, Ethenyl Acetate CAS Number: 108-05-4 Molecular formula: CH3COOCH=CH2 Molecular weight: 86.09 g/mol Density: 0.934 g/cm3 Boiling point: 72.7°C Melting point: -93°C

Vinyl acetate

ChemicalBook 为您提供Vinyl acetate (108-05-4)的化学性质，熔点，沸点，密度，分子式，分子量，物理性质，毒性，结构式，海关编码等信息，同时您还可以浏览Vinyl acetate (108-05-4)产品的价格，供应商，贸易商，生产企业和生产厂家，最后Vinyl acetate (108-05-4)的中文，英文 ...

Vinyl Acetate

Reviews: Leonard "Vinyl Acetate" in Vinyl and Diene Monomers (part 1), E. C. Leonard, Ed.

In the vast realm of chemistry, every compound possesses a unique identity and story. Vinyl acetate, a name that may seem simple at first glance, conceals rich scientific significance and broad applications. Far more than just a label, it is an indispensable part of the chemical industry. While its alternative names are widely recognized, the scientific principles and practical applications behind them often remain underexplored. This article will delve into the nomenclature, chemical structure, properties, and applications of vinyl acetate across various fields, revealing its multifaceted nature.

Vinyl acetate, with the chemical formula CH₂=CHOOCCH₃, is an organic compound classified as an ester. Under normal temperature and pressure, it appears as a colorless liquid with a pungent odor. Its molecular structure consists of a carbon chain and two carbonyl groups, where hydrogen atoms on the carbon chain are replaced by the carbonyl groups of vinyl acetate. Due to its unique structure and properties, vinyl acetate has widespread industrial applications.

From a nomenclature perspective, vinyl acetate is known by multiple common names, such as "acetic acid vinyl ester" or simply "vinyl acetate." These names reflect its extensive use in both industrial production and daily life. Owing to its distinct chemical properties, vinyl acetate is widely employed in manufacturing plastics, rubber, coatings, adhesives, and more. It serves as a critical raw material for synthetic fibers and a key component in producing polyurethane foam. Additionally, it is used in the preparation of polyvinyl chloride (PVC) resin, a plastic material extensively applied in construction, packaging, and other fields.

In scientific research, vinyl acetate plays a pivotal role. By studying its properties and reaction mechanisms, scientists have developed numerous novel chemical reactions and synthesis methods. For instance, through catalytic hydrogenation reduction reactions, vinyl acetate can be converted into other useful chemicals, such as ethanol and acetic acid. These advancements not only enrich the knowledge system of chemistry but also provide new technical support for industrial production.

Beyond industrial applications, vinyl acetate has unique roles in agriculture and medicine. In agriculture, it can act as an adjuvant for pesticides, enhancing their adhesion and stability. In medicine, it is utilized in the synthesis of precursors or intermediates for certain drugs, such as antitumor agents. These applications highlight the versatility of vinyl acetate as a multifunctional compound.

despite its wide-ranging applications, vinyl acetate faces several challenges. One major issue is environmental pollution. The production and use of vinyl acetate generate certain pollutants, necessitating urgent solutions to mitigate its environmental impact. with technological advancements, the demand for vinyl acetate continues to grow, posing challenges for enterprises to balance product quality with cost reduction.

Looking ahead, research and application of vinyl acetate will deepen further. Scientists will explore its potential in emerging fields like new materials and renewable energy to drive sustainable development in the chemical industry. Concurrently, businesses must optimize production processes and enhance environmental performance to meet market and societal needs.

vinyl acetate, as a versatile compound, holds a significant position in the chemical world. It not only plays a crucial role in industrial production but also demonstrates unique value in agriculture, medicine, and other fields. A deeper understanding of vinyl acetate allows us to uncover the mysteries of the chemical world while offering valuable insights for future scientific research and industrial innovation.