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Description
Ethyleneamines are widely and variedly used due to their unique combination of properties: reactivity, basicity, and surface activity. They are mainly used as intermediates in the production of functional products such as additives for oils and fuels, polyamide resins, adhesive additives and emulsifiers for bitumen, oil extraction and processing, resins and additives for the pulp and paper industry, epoxy resin hardeners, bleach activators , chelates and chelating agents, metal ore processing, surfactants and emulsifiers, anthelmintics, fabric softeners, fungicides, textile materials.
Product Ethyleneamines
Description
Ethyleneamines are widely and variedly used due to their unique combination of properties: reactivity, basicity, and surface activity. They are mainly used as intermediates in the production of functional products such as additives for oils and fuels, polyamide resins, adhesive additives and emulsifiers for bitumen, oil extraction and processing, resins and additives for the pulp and paper industry, epoxy resin hardeners, bleach activators , chelates and chelating agents, metal ore processing, surfactants and emulsifiers, anthelmintics, fabric softeners, fungicides, textile materials.
Extended information
1. Ethylenediamine (EDA - EDA) - (1,2-diaminoethane) is the lowest molecular weight homologue of ethyleneamines. It contains two primary amino groups and forms an azeotropic mixture with water with a maximum boiling point.
EDA is mainly used as an intermediate in the production of bleach activators, fungicides, chelating agents, lubricants, textile resins, polyamides, and fuel additives.
2. Diethylenetriamine (DETA - DETA)- the second linear homologue of the ethyleneamine series. It contains two primary and one secondary amino group. DEET has a wider liquid phase range than ethylenediamine: boiling point 207 ° C (405 ° F) at 760 mm Hg. Art. and a freezing point of -39 ° C (-38 ° F).
Diethylene triamine is mainly used as an intermediate in the production of wet paper resins, chelating agents, ion exchange resins, ore processing additives, textile softeners, fuel additives and corrosion inhibitors.
3. Triethylenetetramine (TETA - TETA) - is a liquid and contains linear, branched and cyclic molecules.
The main applications of TETA are in the production of hardeners for epoxy resins, polyamides and additives for oils and fuels.
4. Tetraethylenepentamine (TEPA - TEPA) - is a mixture of linear, branched and cyclic molecules.
The main end uses of TEPA include the production of oil and fuel additives, reactive polyamides, epoxy hardeners and corrosion inhibitors.
5. Amine Delamix 1000 - Works well in many applications and formulations. Suitable for use in asphalt additives, corrosion inhibitors, epoxy resin hardeners (self-leveling floors, household goods, industrial coatings, pipe protection, etc.), additives to lubricating oils, moisture-impregnating resins /
6.Piperazine (PIP - PIP) - is the simplest cyclic homologue of ethyleneamines. Its molecule contains two secondary amino groups. Anhydrous piperazine has a fairly high freezing point (pour point) of 110 ° C (230 ° F) and a boiling point of 146 ° C (295 ° F) at a pressure of 760 mm Hg. Art. Because the narrow temperature range of the liquid phase makes it difficult to handle the substance, piperazine is often supplied as aqueous solutions to facilitate handling and storage.
Among the main uses of piperazine are the production of polyamides, pharmaceuticals, and it also serves as an intermediate in the production of triethylenediamine, a catalyst for the production of polyurethane
7. Aminoethylpiperazine (AEP - AEP) - unique among ethyleneamines: it contains one primary, one secondary and one tertiary nitrogen atom. AEP has a wide liquid temperature range: boiling point of 222 ° C (432 ° F) at 760 mmHg. Art. and a freezing point of -17 ° C (1.4 ° F).
The main end use of AEP is in the production of epoxy hardeners and asphalt additives, as well as urethane catalysts.
8. Aminoethylethanolamine (AEEA - AEEA) - is an organic base with unique properties that make it an invaluable intermediate component. Due to the presence of primary and secondary amino groups along with a hydroxyl group, AEEA has a combination of the functions of ethyleneamine and ethanolamine.
Major end uses include surfactants, fabric softeners, fuel additives and chelates.
9. Amine Higher Ethylene polyamine-S120 (HEPA S120) is a universal amine emulsifier. It is characterized by high molecular weight and great functionality, works well in many applications and formulations, and can replace polyethylene polyamine (PEPA) in some formulations. HEPA S120 is suitable for use in asphalt additives, corrosion inhibitors, epoxy hardeners (self-leveling floors, household goods, industrial coatings, pipe protection, etc.), additives for lubricating oils, moisture-impregnating resins.
Common product names: Ethyleneamines; Ethylenediamine; EDA; 1,2-diaminoethane; Diethylenetriamine; DETA; N- (2-aminoethyl-1,2-ethanediamine; Triethylenetetramine; TETA; Tetraethylenepentamine; TEPA; Heavy polyamine; HPA-X; Piperazine; PIP; Aminoethylpiperazine; AEP; Aminoethylpiperazine; AEP-Aperazine-AEP; nethylamine N- (2-aminoethyl) -piperazine; 1- (1-piperazine) -2-aminoethane; Aminoethylethanolamine; AEEA; Aminoethylethanolamine; AEEA; Ethanol, 2 - [(2-aminoethyl) aminol]; N- (β-hydroxyethyl) -ethylenediamine; N- (2-Aminoethyl) -ethanolamine.
CAS No. 107-15-3; CAS No. 000111-40-0; CAS No. 000107-15-3; CAS No. 112-24-3; CAS No. 112-57 -2; CAS No. 000110-85-0; CAS No. 140-31-8; CAS No. 000111-41.
