Novel DOPO-based flame retardants in high-performance carbon

  • Novel DOPO-based flame retardants in high-performance carbon
  • Novel DOPO-based flame retardants in high-performance carbon
  • Novel DOPO-based flame retardants in high-performance carbon

Synthesis and Characterization of a Novel DOPO

  • Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
  • cas no 117-84-0
  • Other Names:DOP, diocty phthalate, 1,2-phthalate
  • MF:C24H38O4
  • EINECS No.:201-557-4
  • Purity:99%, 99%
  • Type:Plasticizer
  • Usage:Plastic Auxiliary Agents, Plasticizer
  • MOQ:200kgs
  • Package:200kgs/battle
  • Advantage:Stable
  • Payment:T/T

The research on intrinsic flame retardant has become a hot topic in the field of flame retardant. The synthesis of reactive flame-retardant monomer is one of the effective methods to obtain an intrinsic flame retardant. In

Request PDF Novel DOPO-based Flame Retardants in High-performance Carbon Fibre Epoxy Composites for Aviation The pyrolysis and fire behavior of halogen-free flame-retarded DGEBA/DMC, RTM6 and

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Highly Effective P–P Synergy of a Novel DOPO

  • Classification:Chemical Auxiliary Agent
  • CAS No.:117-84-0
  • Other Names:Dop
  • MF:C6H4(COOC8H17)2
  • EINECS No.:201-557-4
  • Purity:99.5%, 99.5%
  • Type:Plastic Auxiliary, Dop Plasticizer For Pvc
  • Usage:Coating Auxiliary Agents, Leather Auxiliary Agents, Paper Chemicals
  • MOQ:200kgs
  • Package:200kgs/battle
  • Shape:Powder
  • Application:PVC Plasticizer

A novel flame retardant (FR) DOPO-PEPA, which was synthesized via Atherton–Todd reaction between 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO) and 1-oxo-4-hydroxymethyl-2,6,7

A novel flame retardant POBDBI was generated by the reaction of p-dibenzaldehyde, 5-amino-2-benzimidazolinone and 9,10-dihydro-9-oxa-10-phosphaphenanthrene-10-oxide (DOPO), and employed to epoxy resin. The structure of

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A phosphorus-containing hyperbranched phthalocyanine

  • Classification:Chemical Auxiliary Agent
  • CAS No.:117-84-0
  • Other Names:DOP
  • MF:C6H4(COOC8H17)2
  • EINECS No.:201-557-4
  • Purity:99.5%, 99.5%
  • Type:Plasticizer, Dioctyl Phthalate
  • Usage:Rubber Auxiliary Agents
  • MOQ:200kgs
  • Package:200kgs/battle
  • Place of Origin::China
  • Item:T/T,L/C

Wang, P. & Cai, Z. Highly efficient flame-retardant epoxy resin with a novel DOPO-based triazole compound: Thermal stability, flame retardancy and mechanism. Polym. Degrad.

possible to obtain polymer flame retardants with complex structure, determined molecular weight, and low disper-sion.37,41,44,45 In view of the wide application of DOPO in flame retardant field22,46−61 and the urgent demand for functional monomers with flame

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Novel DOPO-based flame retardants in high-performance

  • Classification:Chemical Auxiliary Agent, Chemical Auxiliary Agent
  • cas no 117-84-0
  • Other Names:Liquid DOP, DOP oil
  • MF:C24H38O4
  • EINECS No.:201-557-4
  • Purity:99.99, 99%
  • Type:Plasticizer
  • Usage:Plastic Auxiliary Agents, Plastic Auxiliary Agents, Rubber Auxiliary Agents
  • MOQ:200kgs
  • Package:200kgs/battle
  • Volume Resistivity:619

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In our previous work, novel silicane- and DOPO-based flame retardants were prepared and applied to epoxy resins. These silicane- and DOPO-based flame retardants mainly play their flame-retardant roles in both condensed and gas phases, but the flame-retardant

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The effect of traditional flame retardants,

  • Classification:Chemical Auxiliary Agent
  • CAS No.:117-84-0
  • Other Names:DiOctyle Phthalate DOP
  • MF:C6H4(COOC8H17)2
  • EINECS No.:201-557-4
  • Purity:99.6%
  • Type:Oil drilling
  • Usage:Leather Auxiliary Agents, Paper Chemicals, Petroleum Additives, Plastic Auxiliary Agents, Rubber Auxiliary Agents, Textile Auxiliary Agents, Leather Auxiliary Agent,Plastic Auxiliary Agent,
  • MOQ::10 Tons
  • Package:25kg/drum
  • Advantage:Stable
  • Payment:T/T

The performance was compared not only regarding the reaction to fire performance, but also in terms of thermal stability, glass transition temperature and microstructure. Regarding the fire reaction behaviour of nanofilled epoxy

The obtaining of high performance flame retardant bio–based epoxy thermosets containing diphenolic acid remains however a major challenge. In a recent study, Chi et al. [64] reported the obtaining of a flame retardant bio–based epoxy resin (TEBA) (yield 91 %) synthesized in three stages from DOPO, diethanolamine and diphenolic acid (Fig. 16

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