products / organic peroxides site

Organic peroxides are widely used to generate free radicals for polymerization and similar reactions such as, in the processes of epoxidation, oxidation, hydroxylation and reduction. They are powerful oxidizing agents releasing oxygen; its oxidizing properties are used in the bleachings and deodorizing for textile, hair and in paper manufacture. Also, they are used as initiators, catalysts and crosslinking agent for the polymerization process in the plastics manufacturing industry and as chemical intermediates, bleaching agents, drying and cleaning agents.
One of the most widely used crosslinking methods for wire and cable compounds in electrical applications is radical reaction by organic peroxides to enhance both dimensional stability at elevated temperatures and physical integrity under high electrical stress of the compounds.

STORAGE OF ORGANIC PEROXIDES
Store peroxides in isolation and separated from the work area and from organic materials. Information on appropriate material and design criteria for peroxide storage is available. Decomposition of stored reagents can lead to excessive loss of activity, self-heating and runaway decomposition. Contaminated, partially decomposed, off-strength or surplus organic peroxides should disposed of or destroyed under stringently controlled conditions.
  • Keep away from direct sunlight, strong acids, and reductive agents during transportation or storage.
  • Heat, mechanical shock, friction, shaking or contamination can initiate explosive decomposition of many
  • organic peroxides.
  • Peroxides should be stored in a dry and refrigerated (< 27℃ recommended or 38℃ max) with good ventilation area and to keep away from reducing agents and incompatible substances.

Application

Di Tert Butyl Peroxide – CAS. No XSX0050

Half life
  • The half-life temperatures are 126℃ for 10 hours, 149℃ 1 for 1 hour and 193℃ for 1 minute.
Application
DTBP is used:
  • Crosslinking agent for unsaturated polyesters
  • As a catalyst of polymerization for olefin copolymers
  • As a fuel additive and chemical intermediate.


Specification


Tert Butyl Hydroperoxide - CAS. No XSX0090

Half life
  • The half-life temperatures are 164℃ for 10 hours, 185℃ 1 for 1 hour and 264℃ for 1 minute.
Properties
  • TBHP has a high thermal stability compared to other organic peroxides and is one of the safest organic peroxides. It decomposes rapidly, causing fire and explosion hazard, on heating and under influence of light.
Application
DTBP is used:
  • TBHP is one of the general cationic or curing agent for emulsion and suspension polymerization of ethylene, vinylacetate, acrylates, PVC, unsaturated polyesters.
  • As a free radical initiator over a wide temperature range under appropriate redox initiation.
  • Useful selective oxidation source in presence of transition metal catalysts.
  • Source of tertiary-butyl derivatives including peresters, perketals, and alkyl peroxides.
  • It oxidizes sulfur compounds to soluble derivatives to be removed in petroleum refinery.
  • It is used as an additive in lubricants to reduce the wear of metal the surfaces.
  • It is also used in bleaching, waste treatment and disinfectant.


Specification


Di-Benzoyl Peroxide - CAS. No XSX0242

Half life
  • The half-life temperatures are 73℃ for 10 hours, 92℃ 1 for 1 hour and 131℃ for 1 minute.
Application
  • DBPO is used as a catalyst in oxidation and sulfonation reactions.
  • General polymerization initiators for ethylene, vinylacetate, acrylates, PVC, unsaturated polyesters.
  • Dyeing hair
  • It is also used in bleaching, disinfectant, drying, and cleaning agent.
  • Tooth whitening systems


Specification


Tert-Butyl Peroxy Benzoate – CAS No. XSX0194

Half life
  • The half-life temperatures are 105℃ for 10 hours, 125℃ 1 for 1 hour and 167℃ for 1 minute
Application
  • TBPB is effective as medium temperature initiator for polymerization of a broad spectrum of monomers, e.g. styrene, ethylene, acrylics.
  • TBPB used as a polymerization initiator, catalyst and vulcanizing agent, crosslinking agent, cure (copolymerization) unsaturated resins, and as a chemical intermediate.


Specification


2,5-Dimethyl-2,5-Bis(t-butyl peroxy)hexane - CAS No. XSX0101

Half life
  • The half-life temperatures are 118℃ for 10 hours, 177℃ 1 for 1 hour and 138℃ for 1 minute.
Application
  • DHBP used in crosslinking of elastomers (silicone rubber, EPDM, PE etc.)
  • Used as modification agent of PP degradation.


Specification


Bis(2,4-Dichloro Benzoyl) Peroxide- CAS No. XSX0380

Half life
  • The half-life temperatures are 37℃ for 10 hours, 55℃ 1 for 1 hour and 112℃ for 1 minute.
Application
  • DCBP used in crosslinking agent of silicone rubber with 150-400℃ hot air without pressure.


Specification


1,1-Bis(t-butyl peroxy) Cyclohexane - CAS No. XSX0260

Half life
  • The half-life temperatures are 94℃ for 10 hours, 113℃ 1 for 1 hour and 153℃ for 1 minute.
Application
  • CH80 Used as initiator for polymerization of styrene, cross linking agent for polyethylene and elastomers, heat curing agent for unsaturated polyester.


Specification


1,1-Bis(t-butyl peroxy)-3,3,5-Tri Methyl Cyclo Hexane - CAS No. XSX0302

Half life
  • The half-life temperatures are 92℃ for 10 hours, 112℃ 1 for 1 hour and 155℃ for 1 minute.
Application
  • TMCH used as Oxidising and polymerization in verious reaction.
  • TMCH is effective for polymerization of styrene and crosslinking of elastomers, polyethylene and used as heat curing agent of unsaturated polyester, silicone rubbers, etc…


Specification


2,5-Dimethyl-2,5-di(tertiary-butylperoxy)-hexyne-3- CAS No. XSX0286

Half life
  • The half-life temperatures are 120℃ for 10 hours, 141℃ 1 for 1 hour and 184℃ for 1 minute.
Application
  • YNE is used in the cross-linking of high polymers (such as silicon rubber, ethylene-propylene-diene mischpolymer and PE etc.); also used as donor of free radicals in the degradation of PP.


Specification


Lauroyl peroxide – CAS No. XSX0398

Half life
  • The half-life temperatures are 61℃ for 10 hours, 79℃ 1 for 1 hour and 117℃ for 1 minute.
Application
  • LPO used as initiator of polymerization in styrene, acrylic resins; and curing agent for unsaturated resin.


Specification