1、SH/T 1628.1

SH/T 1628.1-2014的标准全文信息,本标准规定了工业用乙酸乙烯酯的要求、试验方法、检验规则、标志、包装、运输、贮存和安全。 分子式: CHO。 相对分子质量:86.09 (按2007年国际相对原子质量)。 工业用乙酸乙烯酯 第1部分:规格, Vinyl acetate for industrial use.Pa.

2、Vinyl Acetate Industry Standards

In the production and application of vinyl acetate, strict industry standards ensure the stability and safety of product quality, preventing safety incidents and economic losses caused by subpar products.

3、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.

4、ASTM D2190

1.1 This specification covers vinyl acetate.

5、Advancing Global Standards with Ethylene Vinyl Acetate

Explore the evolution of EVA standards across industries, from basic properties to advanced applications. Discover key developments shaping quality and performance.

SH/T 1628.1

本文件规定了工业用乙酸乙烯酯的术语和定义、产品分类、要求、取样、试验方法、检验规则、标志、标签和随行文件、包装、运输和贮存。 本文件适用于乙炔法和乙烯法生产的工业用乙酸乙烯酯。

2026

has surveyed the Vinyl Acetate Polymers manufacturers, suppliers, distributors and industry experts on this industry, involving the sales, revenue, demand, price change, product type, recent development and plan, industry trends, drivers, challenges, obstacles, and potential risks.

ASTM International

Find the most up-to-date version of ASTM D2190-07 (2021) at GlobalSpec.

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.

Standard SpeciÞcation for Vinyl Acetat

Standard SpeciÞcation for Vinyl Acetate This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade ...

Within the diverse domains of the chemical industry, vinyl acetate stands as an indispensable organic compound with irreplaceable significance. Also known as ethylene vinyl acetate, this unsaturated carboxylic acid derivative contains a dual carbon-carbon double bond structure, endowing it with unique physical and chemical properties. As a foundational raw material for synthetic resins, adhesives, coatings, inks, plastics, and numerous other polymeric materials, vinyl acetate plays a pivotal role in modern industrial production.

Understanding its importance begins with recognizing its fundamental characteristics. Vinyl acetate appears as a colorless to pale-yellow liquid with an acetic odor. It has a melting point of approximately 15.5°C, a boiling point of around 240°C, and a density of roughly 1.06 g/cm³. Its distinctive double-bond structure and polymerizability enable copolymerization with various monomers, yielding a wide range of polymeric materials. These products permeate applications from everyday goods to advanced technologies.

In terms of production, vinyl acetate can be synthesized via multiple methods, primarily ethylene-based and propylene-based approaches. The ethylene method involves reacting ethylene with chlorine to produce chloroethylene, followed by hydration to generate vinyl acetate. The propylene method utilizes direct oxidation or chlorination of propylene to form acrylonitrile, which is then polymerized with chloroethylene to obtain vinyl acetate. Each pathway has trade-offs: the ethylene route offers lower raw material costs but generates more byproducts, while the propylene route reduces byproducts at the expense of higher energy consumption.

Market demand for vinyl acetate continues to grow steadily. Driven by global economic expansion and technological advancements, emerging materials and processes have spurred increased demand. Notably, sectors such as construction, automotive, and electronics rely heavily on vinyl acetate as a critical base material. Concurrently, heightened environmental awareness has elevated standards for greener production techniques, compelling enterprises to innovate and enhance both efficiency and product quality.

challenges persist. Environmental concerns loom due to the complexity of vinyl acetate production, which generates pollution. Balancing productivity with ecological sustainability remains a priority. Safety risks arise from its toxicity and irritant properties, necessitating stringent safety protocols. Additionally, market volatility—fueled by broad application scopes and external factors—demands adaptive strategies from businesses.

Looking ahead, the industry will prioritize technological innovation and eco-friendly practices. As new materials and processes emerge, vinyl acetate’s utility will expand, fueling market growth. To address environmental and market challenges, firms must invest in R&D to boost efficiency, cut costs, and improve product standards. Collaborative efforts between governments and enterprises will also be crucial to advancing green development and ensuring sustainable progress.

vinyl acetate is a cornerstone of modern chemical manufacturing with far-reaching societal impact. With ongoing technological advancements and environmental responsibility, the future of the vinyl acetate industry holds promising potential.