CRESYL DIPHENYL PHOSPHATE (PHOSPHORIC ACID METHYLPHENYL DIPHENYL ESTER)

CRESYL DIPHENYL PHOSPHATE
PRODUCT IDENTIFICATION
CAS NO.	26444-49-5
EINECS NO.	247-693-8
FORMULA	C₁₉H₁₇O₄P
MOL WT.	340.31
H.S. CODE
TOXICITY
SMILES
SYNONYMS	Diphenyl tolyl phosphate;
Diphenyl cresyl phosphate; Disflamoll DPK;
Phosphoric acid methylphenyl diphenyl ester; Diphenyl cresol phosphate; Diphenyl tolyl ester phosphoric acid; Diphenyl tolyl phosphate; Cresyl phenyl phosphate; Kronitex CDP; Cresol diphenyl phosphate; Methyl phenyl diphenyl phosphate; Monocresyl diphenylphosphate; Phosflex; Phosphoric acid methylphenyl diphenyl ester; Santicizer; Tolyl diphenyl phosphate; Diphenyltolylphosphat (German); Fosfato de difenilo y tolilo (Spanish); Phosphate de diphényle et de tolyle (French);
CLASSIFICATION
PHYSICAL AND CHEMICAL PROPERTIES
PHYSICAL STATE	Clear liquid
MELTING POINT	-38 C
BOILING POINT	235 - 255 C
SPECIFIC GRAVITY	1.21
SOLUBILITY IN WATER	Insoluble
SOLVENT SOLUBILITY
AUTOIGNITION
pH
VAPOR DENSITY
NFPA RATINGS
REFRACTIVE INDEX
FLASH POINT	232 C
STABILITY	Stable under ordinary conditions
APPLICATIONS
Phosphate esters derived from Diphenly Phosphate are used as component of hydraulic fluids and lubricant oils. They are mainly is used as flame retardants in many plastics and reins for the application of manufacturing electrical and automobile parts. They are used as flame retarding plasticizers or additives in cellulose, polyester and polyurethane. Tehy are also used as a plasticizer in vinyl automotive upholstery and in cellulose acetate articles. Other phosphate esters derived from DPP are methyl diphenyl phosphate; triphenyl phosphate; trixylenyl phosphate; isodecyl diphenyl phosphate; cresyl diphenyl phosphate; isopropylphenyl diphenyl phosphate.
SALES SPECIFICATION
APPEARANCE	Clear liquid
ASSAY	95.0% min
COLOR, APHA	60 max
WATER	0.2% max
TRANSPORTATION
PACKING	240kgs in drum
HAZARD CLASS	6.1 (Packing Group: III)
UN NO.	2810
GENERAL DESCRIPTION OF FLAME RETARDANT AGENT
Flame Retardant are substances that can be chemically inserted into the polymer molecule or be phisically blended in polymers after polymerization to suppress, reduce, delay or modify the propagation of a flame through a plastic materials. There are several classes of flame retardants; Halogenated Hydrocarbons (Chlorine and Bromine containing compounds and reactive flame retardants), Inorganic flame retardants ( Boron compounds, Antimony oxides, Aluminium Hydroxide, molybdenum compounds, zinc and magnesium oxides ), Phosphorous containing compounds (Organic phosphate esters, phosphates, halogenated phosphorus compounds and inorganic phosphorus containing salts).