99.8% Sour Taste Glacial Acetic Acid for Pesticides

Key Applications

Pesticide Synthesis: Used as an intermediate in the production of various herbicides, insecticides, and fungicides (e.g., Acetochlor, 2,4-D, etc.).
Pharmaceutical Industry: Used in the synthesis of sulfonamides, aspirin, and other pharmaceuticals.
Dyes & Fragrances: Serves as a raw material for esterification reactions.
Solvents & Auxiliaries: Used in coatings, inks, and textile processing.

Core Advantages

High Purity (99.8%): Low impurity levels ensure high yields and superior quality in downstream synthesis processes.
Pure Acidity: Exhibits a pure acidic profile with excellent batch-to-batch consistency.
Secure Packaging: Tightly sealed packaging prevents moisture absorption and evaporation.
Third-Party Testing: Third-party inspection services are available upon request (SGS, BV, Intertek, CIQ).

Packaging, Storage, and Transport

Packaging: Available in 25kg plastic drums, 200kg drums, IBC totes, tank trucks, and other formats; custom packaging options are available.
Storage: Store in a cool, well-ventilated, and dry area; keep away from ignition sources and oxidizing agents. Recommended storage temperature is below 30°C.
Transport: Classified and handled as a Class II Corrosive Substance; precautions must be taken to prevent leakage during transport.

Product Specification

CAS No.: 64-19-7
EINECS: 200-580-7
Molecular formula: C2H4O2/CH3COOH
Molecular weight: 60.05
Melting point: 16.635° C
Boiling point: 118° C
Appearance:Colourless Transparent Liquid
Model Number:glacial acetic acid 99%
Grade Standard Agriculture Grade, Electron Grade, Food Grade, Industrial Grade, Medicine Grade, Reagent Grade
Purity:99%

React with inorganic substances

Reaction with Salts: Acetic acid can react with certain salts to produce the corresponding acetates.

Reaction with Metals: As a weak acid, acetic acid can corrode various metals—such as iron, magnesium, and zinc—forming acetates and releasing hydrogen gas. Although the surface of aluminum is protected by an oxide film, this film is disrupted in the presence of acetic acid, allowing the underlying aluminum to continue reacting with the acid.

Reaction with Bases: Acetic acid can also form acetates through neutralization reactions with bases (such as sodium hydroxide). With the exception of chromium(II) acetate, almost all acetates are readily soluble in water.