Product List     Auxiliary     

 Petroleum Additives

Find
9
related chemicals for you
CAS:68909-18-2
Molecular Formula:C13H16ClN
Alkyl Pyridines Benzyl Chloride Ammonium Salt; Composite Pyridine Quaternaryammonium Salt; Pyridinium, 1-(Phenylmethyl)-, Ethyl Methyl Derivs., Chlorides; Quaternized Alkyl Pyridine
Brief Introduction
Compound pyridine quaternary amine salt can be used as a corrosion inhibitor intermediate to make a series of corrosion inhibitor products according to different compounding processes, which are respectively used in oil field acid fracturing, oil field reinjection water, oil and gas gathering and transportation, and oil and gas well casing corrosion inhibitors. At the same time, it can also be used as a series of corrosion inhibitors in refineries and pickling corrosion inhibitors in chemical cleaning.
CNY 20 Million
105894m²
100-500 People
Manufacturing Manufacturing
Product Photo Specification Grade Max Capacity Certificates Package
99% Tech Grade - -
1000kg / IBC Drum
Main products:
Alkyl Pyridines Quat
Oil Soluble Copper Corrosion Inhibitor; Water Soluble Copper Corrosion Inhibitor; Lubricant Additives; Anti-rust and Corrosion Inhibitor; Metal Deactivating Agent; Thiadiazole Derivatives (Metal Deactivator)T561; Metal Deactivator; Metal Deactivation; Rust Inhibitor; Metal Passivator; Viscosity Index Improver; Pour Point Depressant; Antiwear; _|_; KHC-3030 Oil Soluble Metal Deactivator; KHC-406E Oil Soluble Copper Corrosion Inhibitor; KHC-3039 Oil Soluble Copper Corrosion Inhibitor; Metal Passivator KHC551; Metal Passivator KHC3090; Water Soluble Copper Corrosion Inhibitor KHC3042; Viscosity Index Improver KHC4030; Polymethacrylate KHC178; KHC3052 Gemini Imidazoline Type Rust Inhibitor; Gear Oil Compound Additive TE-4206; TE5064 Antiwear Hydraulic Oil Package; KHC563 Thiadiazole type Metal Deactivator; KHC-706 Passivator; KHC3053 Half Ester Type Rust Inhibitor; KHC TP-2100; KHC3039; KHC3042; KHC551; KHC3030; T706; KHC406E; KHC3052; KHC3053; HKC561; HKC562; KHC563; KHC018
Brief Introduction
It is an additive for mineral oil and lubricating oil, which can significantly improve the lubrication performance of oil products
CNY 20 Million
29970m²
50-100 People
Manufacturing Manufacturing
Product Photo Specification Grade Max Capacity Certificates Package
T406E Tech Grade -
20kg / Plastic Drum
200kg / Steel Drum
Customed Package
Main products:
Lubricating oil Additive /Benzotriazole /Benzotriazole, Sodium Salt /Tolutriazole /Tolytriazole Sodium Salt /1-H-Benzotriazolc-Chloro-c-Methylsodisalt /N,N-Dibutyl-1H-Benzotriazole-1-Methylamine /N,N-Bis(2-Ethylhexyl)-ar-Methyl-1H-Benzotriazole-1-Methanamine /Water Treatment Agent /N,N-Bis(2-Ethylhexyl)-[(1,2,4-Triazol-1-yl)Methyl]amin /2,5-bis(tert-Dodecyldithio)-1,3,4-Thiadiazole /2,5-bis(tert-Nonyldithio)-1,3,4-Thiadiazole /Antifreeze Compound /2,5-Bis(Octyldithio)-1,3,4-Thiadiazole
CAS:112-41-4
Molecular Formula:C12H24
Dodec-1-ene; Dodecene; Adacene 12; Dodecene-1; Dodecylene; n-Dodec-1-ene; .Alpha.-Dodecene; .Alpha.-Dodecylene; Dodecylene .Alpha.-; 1-Dodecene, Dimer; 1-Dodecene, 95%; Alpha-Dodecene; Alpha-Dodecylene; N-Dodec-1-Ene A-Dodecylene; n-Dodecene; Dodec-11-ene; Neodene 12; Dodecene, 1-; 1-Dodecene (Standard Material); 1-Dodecene, Analytical Standard; 1-Dodecene, >=99.0% (GC); 1-Dodecene, Technical, >=90% (GC)
Brief Introduction
Used in organic synthesis, production of surfactants; detergents; lubricating oil additives and plasticizers, etc. Japan is mainly used to produce didodecene phenol.
CAS:27247-96-7
Molecular Formula:C8H17NO3
2-Ethylhexylnitrate; Nitric ACID, 2-Ethylhexyl Ester; Ethylhexyl Nitrate; 2-Ethyl-1-Hexyl Nitrate; 3-Nitrooxymethyl-Heptane; 2-EHN; 2-Ethyl Hexyl Nitrate; 2-Ethylhexanol Nitrate; EHN
Brief Introduction
Isooctyl nitrate is an important diesel fuel additive, increasing the diesel cetane number (CN value) can accelerate the ignition of diesel and improve engine performance. Fuel additives can change certain properties of fuel, making it beneficial to improve combustion, so as to achieve the purpose of reducing the emission of harmful substances in the exhaust of internal combustion engines and saving energy, without adding devices or changing the structure of vehicles and internal combustion engines. Fuel energy utilization under load, thereby improving combustion efficiency and reducing pollutant emissions, so it has been widely used in recent years.
Inquiry ( 
10
 
/ 10
 )
Clear All
Sign In
Please enter your email address correctly
Please enter your password
Forgot Password
OR
Join Free >