N-acetyl Acetyl Aniline 99.9% Chemical Raw Material Acetanilide
Specification
Item | Specifications |
Appearance | White or almost white crystals |
Melting Point Limits | 112~116°C |
Aniline Assay | ≤0.15% |
Water Content | ≤0.2% |
Phenol Assay | 20ppm |
Ash Content | ≤0.1% |
Free acid | ≤ 0.5% |
Assay | ≥99.2% |
Packaging
25kg/drum,25kg/bag
Product Description
Product Name | Acetanilide |
Synonyms | N-Phenylacetamide |
CAS No. | 103-84-4 |
EINECS | 203-150-7 |
Molecular Formula | C8H9NO |
Molecular Weight | 135.16 |
Appearance | White crystalline powder |
Melting point | 111-115 ºC |
Boiling point | 304 ºC |
Flash point | 173 ºC |
Water solubility | 5 g/L (25 ºC) |
Assay | 99% |
Production Raw material
The raw materials of acetylaniline production mainly include aniline and acetone. Among them, aniline is an aromatic amine, is one of the most important organic chemical raw materials, widely used in dyes, drugs, synthetic resins, rubber and other fields. Acetone, as an acetylation agent, is an important intermediate in fermentation industry and a basic chemical in the field of organic synthesis.
Acetanilide is usually produced by acetylation, which is the reaction of aniline and acetone to form acetanilide. The reaction is generally carried out in the presence of alkaline catalysts such as sodium hydroxide or hydroxylamine, and the reaction temperature is generally 80-100℃. In the reaction, acetone acts as acetylation, replacing a hydrogen atom in an aniline molecule with an acetyl group to form acetanilide. After the reaction is completed, high purity acetanilide products can be obtained by acid neutralization, filtration and other technological steps.
Application
1. Dye pigments: as an intermediate used in the synthesis of dye pigments, such as printing and dyeing dyes, fabric dyeing agents, food, medicine and other fields.
2. Drugs: Used as raw materials in the synthesis of certain drugs and medical compounds, such as diuretics, analgesics and anesthetics.
3. Spices: Can be used as synthetic spices, such as aromatic compounds.
4 synthetic resin: can be used to synthesize a variety of resins, such as phenolic resin, urea formaldehyde resin, etc.
5. Coating: can be used as a dye dispersant for coating, improve the coloring power of paint and adhesion of paint film.
6. Rubber: can be used as raw material of organic synthetic rubber, can also be used as rubber plasticizer and buffer.
Hazards:Class 6.1
1. To stimulate the upper respiratory tract.
2. Ingestion can cause high levels of iron and bone marrow hyperplasia.
3. Repeated exposure can occur. Irritating to the skin, can cause dermatitis.
4. Inhibition the central nervous system and cardiovascular system.
5. A large number of contact may cause dizziness and pale.