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Surfactant

Imidazoline CAS 61790-69-0, CAS 61791-39-7, CAS 63441-26-9, CAS 95-38-5 with High Quality

Imidazoline has a high ring-forming rate and has excellent metal corrosion inhibition, rust prevention, emulsification, lubrication and thermal stability properties. CAS 61790-69-0; CAS61791-39-7 ;CAS63441-26-9; CAS95-38-5
INQUIRY
Description

Overview of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5
Imidazoline has a high ring-forming rate and has excellent metal corrosion inhibition, rust prevention, emulsification, lubrication and thermal stability properties. Unneutralized imidazoline is hydrophobic and soluble in organic solvents and non-polar solvents such as mineral oil. After acid neutralization, it can be easily dissolved or dispersed in aqueous solution, adsorbed on the surface of metal or workpiece, forming a dense protective film, inhibiting acid corrosion and improving the wettability of the solution.

 


(Imidazoline CAS 61790-69-0, CAS 61791-39-7, CAS 63441-26-9, CAS 95-38-5 with High Quality)


 

Chemical Properties of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5

 

TR-100

TR-E

TR-200

TR-L

INCI

Toluamide ethylimidazoline

Tall oil hydroxyethyl imidazoline

Bis(oleoylamino)ethylimidazoline

Oleic acid hydroxyethyl imidazoline

CAS

61790-69-0

61791-39-7

63441-26-9

95-38-5

Appearance (25° C)

Amber liquid

Amber liquid

Amber liquid or cream

Yellow liquid

Amine value (mgKOH/g)

185-230

150-210

90-105

150-190

Ring formation rate (%)

≥50

≥75

≥75

≥75


Application of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5
As an acid-resistant anti-corrosive agent, it can inhibit the corrosion of hydrochloric acid, HzS and CO2 on metal equipment, etc. It can be applied in petroleum mining, petroleum processing, metal hardware processing anti-corrosion, paint anti-flash rust, oilfield drilling mud and asphalt emulsifier.

 

 
Application of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5

 

 

Company Profile

Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted global chemical material supplier & manufacturer with over 12-year-experience in providing super high-quality chemicals and nanomaterials, including boride powder, nitride powder, graphite powder, sulfide powder, 3D printing powder, etc.
The company has a professional technical department and Quality Supervision Department, a well-equipped laboratory, and equipped with advanced testing equipment and after-sales customer service center.
If you are looking for high-quality Imidazoline please feel free to contact us or click on the needed products to send an inquiry. 

 

 
Company Profile

 


Packing of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5
We have many different kinds of packing which depend on Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5 quantity.
Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5 packing: 100g, 1kg, 10kg,etc.

 


Packing of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5

 
Payment Term
T/T, Western Union, Paypal, Credit Card etc.
 
Shipment Term
By air, by sea, by express, as customers request.
 
FAQs of Imidazoline CAS 61790-69-0 CAS61791-39-7 CAS63441-26-9 CAS95-38-5
Q:What are the main physical and chemical properties of imidazoline?
A:The nitrogen atom on the imidazoline ring is basic and can accept protons to form cations. The nitrogen atom on the imidazoline ring is nucleophilic and can participate in nucleophilic substitution reactions. Imidazolines can form stable complexes with metal ions, a property that makes them widely used in catalysts and chelating agents. Some imidazoline derivatives have antioxidant properties and can be used as antioxidants in food and cosmetics.

Q:What are the main applications of imidazoline in industry?
A:Imidazoline derivatives can be used as anti-wear agents and antioxidants in lubricants to improve the performance and life of lubricants. Imidazoline derivatives have good anti-corrosion properties and can be used for anti-corrosion treatment of metal surfaces. Some imidazoline derivatives can be used as catalysts, especially in polymerisation reactions and organic synthesis. Imidazolines can form stable complexes with metal ions for water treatment and metal surface treatment. Imidazoline derivatives can be used as surfactants to improve interfacial properties and are widely used in detergents and cosmetics.

Q:What are the applications of imidazoline in the pharmaceutical field?
A:Imidazoline derivatives such as colistin and moxonidine are used in the treatment of hypertension and lower blood pressure by activating imidazoline receptors in the central nervous system. Certain imidazoline derivatives have antidepressant properties and may be used to treat depression. Imidazoline derivatives can be used for local anaesthesia and pain relief, such as the imidazoline structure in lidocaine. Imidazoline derivatives can be used in ophthalmic drugs, such as those used in the treatment of glaucoma. Certain imidazoline derivatives have antimicrobial activity and can be used for topical antibacterial and antiseptic purposes.

Q:What are the methods of synthesis of imidazolines?
A:Cyclisation: Imidazolines are synthesised by cyclisation of diamines and carbonyl compounds. For example, ethylenediamine and formaldehyde heated under acidic conditions can produce imidazolines.
Rearrangement reaction: synthesis of imidazolines by rearrangement reaction of diazonium salts. For example, phenylhydrazine and aldehyde react under acidic conditions to form a diazonium salt, which is then rearranged to form imidazoline.
Michael addition reaction: synthesis of imidazoline by Michael addition reaction. For example, β-dicarbonyl compounds and secondary amines react under basic conditions to form imidazolines.
Catalytic hydrogenation: synthesis of imidazolines by catalytic hydrogenation reactions. For example, unsaturated compounds are hydrogenated in the presence of a catalyst (e.g.,platinum (chemistry)) to produce imidazolines.

 

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