Organic compounds -- part of the class 532-570 series – Organic compounds – Oxygen containing
Reexamination Certificate
2002-10-21
2003-09-02
Shippen, Michael L. (Department: 1621)
Organic compounds -- part of the class 532-570 series
Organic compounds
Oxygen containing
C568S725000
Reexamination Certificate
active
06613947
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to a high purity 4,4′-isopropylidine-bis-(2.6 dibromophenol) also called Tetrabromobisphenol A (TBBA) and also to a process for the preparation of such high purity Tetrabromobisphenol A (TBBA).
BACKGROUND
Tetrabromobisphenol A (TBBA) which has the chemical name of 4-4′-isopropylidine-bis-(2,6-dibromophenol) [abbreviated as TBBA] is a specialty chemical with wide range of applications in industry especially as a
Reactive flame retardant to produce epoxy resins used for electronic encapsulation compounds printed circuit boards, housing components for household goods and electronic goods.
Additive flame retardant in ABS where it is used as a substitute for octabromo dipheryl oxide.
Additive for polycarbonates and unsaturated polyester resins.
Raw material for phenoxy terminated TBBA, which is used PBT and polyester thermoplastic elastomer.
Raw material for TBBA-diallylether used for polypropylene, surface waft and polystyrene foam
Raw material for TBBA-bis(hydroxy ethyl ether) derivation used in production of unsaturated and saturated polyesters and Dacron-900 fiber.
TBBA-bis(dibromopropyl ether) used for V-2-PP water pipes.
In these applications it is essential that TBBA used must be pure, free from reaction by-products, have very low ionic impurities good colour characteristics. In several manufacturing applications it is advantageous to use TBBA that is a free flowing powder or crystals with specified particle size distribution and angle of repose.
The prior art related to the preparation of TBBA has been focused at obtaining it in the most desired purity end characteristics for appropriate end applications.
The common method of preparation of TBBA is based on bromination of Bisphenol A according to the following reaction.
Small quantities of under brominated bisphenol components can also be formed in the reaction. It would be desirable to recover the HBr formed to utilise the bromine for bromination for cost optimisation and reduce contamination of the end product from the by-products and ionic impurities resulting from HBr. Several difficulties have been encountered in obtaining “high-purity” TBBA with “high-yields”.
U.S. Pat. No. 3,548,302 (1970) uses two phase solvent systems consisting of 0.2-20 parts of water and one volume of unreactive “water-immiscible” liquid organic solvent such as CH2Cl2. The bromination is carried out under reflux conditions for 6 hours with gradual separation of TBBA The isolated TBBA has melting print 181-3 degree C. This process has severed problems related to recovery of HBr for re-use resulting in losses of expensive raw material.
German Patent no. 2227439 (1972) attempts to overcome the weaknesses in the re-use of HBr by introducing an aqueous solution of hydrogen peroxide in the reaction medium. Several other oxidising agents such as chorine, bromine for insitu convertion of HBr to Br2 in the reaction medium has been suggested. However, this suffered from problems of low yield (75-95%) of the crude product which included the di, tri and tetra brominated products. Repeated use of to mother liquor cold enhance the yields but make the process cumbersome and unsuitable for manufacture scale operations.
Japanese Patent no. 7955538 (1979) addresses the problem of separation of the brominated product from the emulsion obtained at the end of the reaction with the addition of above 100 ppm of a surface active agent. The yields continued to be in the range of 89.3% to 95.2% with unsatisfactory product quality. Another Japanese Patent 79119452 (1978) attempted the purification of TBBA by dissolving it in aqueous sodium hydroxide followed by addition of hydrochloric acid to reprecipitate the product. However, the end product suffered from colour problems, as the APHA (colour) of the end product did not go below 30.
Israeli Patent IL 64610 (1985) described a process of manufacture of TBBA in which the reaction of bisphenol A with bromine is carried out in the presence of a substantially “water-immiscible” organic solvent constituent and an aqueous constituent comprising hydrogen peroxide and by incorporating not more than 100 ppm of a surface active agent. The mother liquor resulting from the separation of the TBBA product is recycled to the reaction system. The final product was of 99.5% (by gas chromatography) and yield of 95%. This patent has however not commented on the colour characteristics (APHA) of the end product and the level of ionic impurities, which are critical in deciding on its end application.
U.S. Pat. No. 5,237,112 (1993) outlines a substantial improvement on earlier processes which involves bromination of bisphenol A in inert solvents, in the presence of hydrogen peroxide acidified with mineral acids (in quantities less than required to convert all, HBr formed to Br2). On completion of the reaction the reaction mass is boiled and the aqueous and non-aqueous phases are allowed to separate. The HBr co-product (with TBBA) in the non-aqueous phase is separate, washed with aqueous alkali sulphite solution and rinsed with deionised water. The final product is heat treated from 30 seconds to 1 hour. The end product is claimed to have <20 ppm ionic impurities. However this patent has claimed high yield “without disclosing” quantitative yield figures. The quality in terms of the colour (APHA) or texture of the end product has also not been disclosed. The emphasis of the U.S. patent is on reduction of ionic impurities by the extra heating process of the end product.
The Europe Patent Application No. EP372154 (1993) disclosed attempts to crystallize TBBA using alcohol to get large particle size single crystals ranging from 150-500 microns. However the process described are fraught with practical difficulties for industrial production.
Prior data EP 0672154 A1 also discloses single crystal tetrabromobisphenol A having an average particle size of 150 to 500 &mgr;m having a polyhedral shape of high quality having impurity reduced and having excellent powder properties and the process for its production. The TBBA obtained by the process have an angle of repose in the range 35° to 45°. Importantly, solvent used in such process is an alcohol solvent, which can lead to the production of undesired by-products. Also in such process, it is found to be extremely difficult and tedious to recover the solvent form the aqueous stream and involves complex recrystallation from an alcohol solvent. The process is further cost extensive as the same involves use of costly hydrazine hydrate for killing of bromine.
It is also known from prior dated U.S. Pat. No. 5,068,463 which corresponds to EP 0424895A of yet another process for the production of TBBA which suggest the washing of the organic phase containing dissolved tetrabromo-4,4-alkylidendephenol with an aqueous alkali sulphite solution preferably at 50-90° C. While this process outlines manufacture of TBBA of high purity, the product obtained is found to have APHA in the range of 10 to 70 HU. Also, the process involves the use of sulfuric add for bromination and washing is found to be not effective in removal of undesired iron content from the product.
Thus while several processes for manufacture of TBBA have been made available and known to the art over the years, it has not yet been possible to obtain the same having HPLC purity of 99.9% ionic bromide less than 10 ppm, angle of repose tae than 35° and alkaline APHA less than 100 HU. Also, particle size of such product of the known art are found to have limitation i.e. in the range of up to 250 &mgr;m only. Also the process for the manufacture of TBBA presently available in the art as discussed above we found to be complex and presently available in the art as discussed above are found to be complex and also cost-extensive. Thus for the above reasons, the industrial demand for processing with high yield and high purity TBBA still continues.
OBJECT OF THE INVENTION
It is thus the basic object of the present invention to provide TBBA of high purity having HPLC purity of 99.996 ionic
Naik Dharma Ratnakar Ramdas
Naik Shantaram Narayan
Rao M. Madhusudan
Pendorf & Cutliff
Shippen Michael L.
Solaris Chemtech Limited
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