DIBUTYLAMINE
SYNONYMS:
DIBUTYLAMINE; dibutylamine; dibutyl amine ; di butl amine ; N,N-Dibutylamine #; N,N-di-n-butylamine; dibutylamne; dbutylamne; DIBUTYLAMINE; dibutylamine; dibutyl amine ; DIBUTYLAMINE; dibutylamine; dibutyl amine ; dibütylamine; dibutyl amine; DIBUTYLAMINE; DBUTYLAMNE; DBÜTYLAMNE; Dbutylamine; dibütil amin; dibutylamine; dibutyl amine ; amine; butyl amine; dibutyl; dibutyl; dibütil; dibutyl; butyl; bütyl; 111-92-2; Di-n-butylamine; 1-Butanamine, N-butyl-; N-Butyl-1-butanamineN-Butyl-1-butanamine; DIBUTYLAMINE; 111-92-2; Di-n-butylamine; 1-Butanamine, N-butyl-; N-Butyl-1-butanamine; Dibutilamina; N-butylbutan-1-amine; n-Dibutylamine; Di-(n-butyl)amine; dibutyl amine; di-Normal-butylamine; DIBUTYL-AMINE; UN2248; HSDB 310; Dibutilamina [Romanian]; UNII-2194M2LA21; di-1-butylamine; AI3-15329; AI3-52649; di(n-butyl)amine; di-n-butyl amine; N,N-Dibutylamine; EINECS 203-921-8; (n-C4H9)2NH; BRN 0506001; JQVDAXLFBXTEQA-UHFFFAOYSA-N; 2194M2LA21; Di-n-butylamine, 99%; Di-n-butylamine, for HPLC; dibutylamin; butanamine,n-butyl; Butylamine, di-N-; MFCD00009429; Dibutylamine, 99%; Carbosulfan metabolite; N,N-Dibutylamine #; N,N-di-n-butylamine; N, N-Di-n-butylamin; Dibutylamine, >=98%;dibutilamin; DIBUTYLAMINE; dibutylamine; dibutyl amine ; dibütilamin; dibütil amin; di butl amin; dibütilamin; dibütilamin; dibütilamin; dibütil amin; dibutilamin; dibutilamin; dibutilamin; dibutilamin; dibütil amin; dibütilamin; dibütil amin; amin; butil amin; dibutil; dibutil; dibütil; dibutil; bütil; bütil; dibutilamina; dibutil amina; amina; butilamina; dibutilo; dibutilo; dibütil; dibutilo; butilo; butilo; 111-92-2; Di-n-butilamina; 1-butanamina, 111-92-2; Di-n-butilamin; 1-bütanamin, ACMC-1C9TU; DIBUTYLAMINE; dibutylamine; dibutyl amine ; di butl amine ;
DIBUTYLAMINE
CAS Number 111-92-2 ☑
3D model (JSmol)
Beilstein Reference 506001
ChemSpider 7856 ☑
ECHA InfoCard 100.003.565
EC Number 203-921-8
MeSH dibutylamine
PubChem CID8148
RTECS number HR7780000
UN number 2248
Dibutylamine is an amine used as a corrosion inhibitor, in the manufacture of emulsifiers, and as a flotation agent. It is flammable and toxic.[2]
Dibutylamine – Di-n-butylamine appears as a yellow-colored liquid with a amine-like odor.Dibutylamine is Denser than water. Dibutylamine is Very corrosive, may burn skin, eyes, and mucous membranes. Flash point 125°F. Combustible. Produce toxic oxides of nitrogen when burned. Used to make other chemicals.
Dibutylamine products of decomposition include carbon monoxide, carbon dioxide, hydrocarbons, & oxides of nitrogen as well as amine vapors.Dibutylamine has Odor recognition in air= 2.7X10+1 ppm /Chemically pure/
Dibutylamine – Industry Processing Sectors
Adhesive manufacturing
All other basic organic chemical manufacturing
Electrical equipment, appliance, and component manufacturing
Oil and gas drilling, extraction, and support activities
Paint and coating manufacturing
Pesticide, fertilizer, and other agricultural chemical manufacturing
Petroleum lubricating oil and grease manufacturing
Petroleum refineries
Plastic material and resin manufacturing
Synthetic rubber manufacturing
Properties of Dibutylamine
Chemical formula C8H19N
Molar mass 129.247 g·mol-1
Appearance Colorless liquid
Odor Fishy, ammoniacal
Density 767 mg mL-1
Melting point -61.90 °C; -79.42 °F; 211.25 K
Boiling point 137 to 177 °C; 278 to 350 °F; 410 to 450 K
Solubility in water4.7 g L-1
Vapor pressure 340 Pa
Henry’s law constant (kH) 110 mol Pa-1 kg-1
Magnetic susceptibility (χ) -103.7·10-6 cm3/mol
Refractive index (nD) 1.417
Most important symptoms and effects Dibutylamine
Breathing difficulties. Dibutylamine uses burns by all exposure routes. Symptoms of overexposuremay be headache, dizziness, tiredness, nausea and vomiting: Product is a corrosive
material. Use of gastric lavage or emesis is contraindicated. Possible perforation ofstomach or esophagus should be investigated: Ingestion causes severe swelling, severe damage to the delicate tissue and danger of perforation
Stability and reactivity Dibutylamine
Reactive Hazard None known, based on information available
Stability Stable under normal conditions.
Conditions to Avoid Incompatible products.
Incompatible Materials Strong oxidizing agents
Hazardous Decomposition Products None under normal use conditions
Hazardous Polymerization Hazardous polymerization does not occur. Hazardous Reactions None under normal processing