Benzenesulfonic acid, dodecyl-, compds. with ammonia-ethylene oxide reaction products distn. residues - Names and Identifiers
Benzenesulfonic acid, dodecyl-, compds. with ammonia-ethylene oxide reaction products distn. residues - Physico-chemical Properties
Benzenesulfonic acid, dodecyl-, compds. with ammonia-ethylene oxide reaction products distn. residues - Introduction
The distillation residue of dodecylammonium benzenesulfonate ethoxylate reaction product is a compound, and its properties, uses, preparation methods and safety information are described below:
Nature:
dodecyl ammonium besylate ethoxy reaction product distillation residue is a yellow liquid or viscous liquid. It is a surfactant with good surface activity and emulsifying properties. It has good solubility in water.
Use:
dodecyl ammonium besylate ethoxy reaction product distillation residue is widely used in the field of daily chemical and detergent. It can be used as detergent, softener, descaling agent, emulsifier, etc. Due to its excellent cleaning performance and emulsifying ability, it is often used in the formulation of detergents and cleaners.
Preparation Method:
Dodecylammonium Benzenesulfonate Ethoxy Reaction Product The distillation residue is obtained by ethoxylating benzene sulfonic acid with dodecylamine and an ethoxylating agent. The specific preparation method can be completed by laboratory or industrial production.
Safety Information:
The distillation residue of dodecylammonium besylate ethoxy reaction product is generally a low-toxic compound, but it is still necessary to pay attention to safety during use. Contact with skin and eyes may cause irritation and burns. When using, you should pay attention to wear personal protective equipment, such as gloves, goggles, etc. Avoid inhaling its vapor, and avoid contact with fire or oxidant to prevent fire and explosion. If swallowed, seek medical attention immediately. During storage, it is necessary to avoid mixing with strong acids, oxidants and other substances to avoid unpredictable chemical reactions.
Last Update:2024-04-09 21:04:16