1、Vinyl acetate

Vinyl acetate (CAS 108-05-4) information, including chemical properties, structure, melting point, boiling point, density, formula, molecular weight, uses, prices, suppliers, SDS and more, available at Chemicalbook.

2、Vinyl Acetate

Vinyl acetate appears as a clear colorless liquid. Flash point 18 °F. Density 7.8 lb / gal. Slightly soluble in water. Vapors are heavier than air. Vapors irritate the eyes and respiratory system. May polymerize if heated or contaminated. If polymerization occurs inside a container, the container may violently rupture.

3、Acetic acid ethenyl ester

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VINYL ACETATE

Readily undergoes violent chemical changes at elevated temperatures and pressures. A clear colorless liquid. Flash point 18°F. Density 7.8 lb / gal. Slightly soluble in water. Vapors are heavier than air. Vapors irritate the eyes and respiratory system. May polymerize if heated or contaminated.

Vinyl Acetate

Explore a comprehensive list of vinyl acetate properties in both SI and US customary units at normal temperature and pressure (NTP).

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

Technical Data Sheet VINYL ACETATE MONOMER

Technical Data Sheet VINYL ACETATE MONOMER TYPICAL PROPERTIES PROPERTIES STANDARD Appearence Clear and free of suspended matters Acetone % 0.01 MAX Butenal % 0.001 MAX Water % 0.10 MAX Acidity (Acetate Acid) % 0.004 MAX Methyl Acetate % 0.20 MAX Purity % 99.7 MIN Aldehyde Content % 0.02 MAX

Representation of the Density of Vinyl Acetate

Viscosity η, and density ρ, of binary liquid mixtures of vinyl acetate or benzyl acetate with o -xylene, m -xylene, p -xylene and ethyl benzene have been determined at (303.15 and 313.15) K for the entire composition range.

What is the Liquid Density of Vinyl acetate?

The liquid density of vinyl acetate, a key chemical used in various industrial applications, is approximately 0.934 grams per cubic centimeter (g/cm³) at standard conditions.

Vinyl Acetate

The vinyl acetate industry is an oligopoly—that is, a market with a limited number of producers, because of the high market-entry barriers of high capital costs and limited process technologies.

In the field of chemistry, understanding the basic properties of substances is fundamental to research and application. For organic compounds, density—a critical parameter among their physical properties—plays a vital role not only in storage, transportation, and processing but also in chemical reactions and product quality. This article explores the density of vinyl acetate, an organic compound, and analyzes its impact on industrial applications.

I. Properties of Vinyl Acetate

Vinyl acetate (C₂H₄O₂) is a common organic solvent characterized by its volatility and solubility. Due to its ester functional group, it exhibits low solubility in water but high solubility in many organic solvents. Additionally, its thermal and chemical stability make it widely used in chemical experiments.

II. Definition and Calculation of Density

Density is defined as the mass per unit volume of a substance, typically expressed in grams per cubic centimeter (g/cm³) or kilograms per cubic meter (kg/m³). The formula for density is:

[ ho = frac{m}{V} ]

where ( ho ) represents density, ( m ) is mass, and ( V ) is volume. For gases, calculating density requires additional consideration of pressure.

III. Density of Vinyl Acetate

The density of vinyl acetate is determined experimentally by measuring its mass and volume under standard temperature and pressure (STP). Experimental data indicate that its density ranges between 1.05 g/cm³ and 1.07 g/cm³, though specific values may vary depending on factors such as purity, temperature, and pressure.

IV. Industrial Implications of Density

1. Storage and Transportation: Density influences volatility and ease of storage. Higher density reduces evaporation during transport, minimizing losses.

2. Production and Processing: In chemical synthesis, density affects reactant ratios and product quality. For example, similar densities between raw materials and vinyl acetate can compromise reaction efficiency and purity.

3. Quality Control: Measuring density helps verify product purity. High-purity vinyl acetate must meet strict density specifications to ensure consistency.

4. Environmental Impact: While density itself is not an environmental metric, it indirectly affects eco-friendliness. Lower-density vinyl acetate is more volatile, increasing pollution risks. Industrial processes should prioritize reducing volatile emissions.

As an organic solvent, the density of vinyl acetate significantly impacts its industrial applications. By understanding and leveraging this property, industries can optimize production, enhance product quality, reduce waste, and minimize environmental harm. Future advancements in technology may further refine the production and application of vinyl acetate, driving innovation in related fields.