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Tetrabromobisphenol-A
Introduction
By the end of twentieth century, synthetic
polymers have phenomenally attracted the global attention.
Simultaneously, the application of various flame retardant
materials has also been established. Approximately ten percent
of total polymers have been identified as flame-retardants.
Flame-retardants are simply the halogenated organic compounds.
Brominated or chlorinated compounds are chiefly used as flame-retardants.
They are used in the manufacture of plastics, electrical and
electronic products, laminates, adhesives etc. which when
incidentally caught fire, flame retardant releases halogen
hydrides and extinguish the fire. Tetrabromobisphenol-A (CH3
) C (C6 H2 Br2 OH) 2 (79-94-7) denoted hereafter as TBBPA,
is one such flame-retardant. It is a bromine derivative of
bisphenol-A and TBBPA is an important substance among various
bromo compounds. As a flame retardant, TBBPA constitutes on-third
of the total bromine based flame-retardants because of its
high stability and compatibility as an additive and a reactive
compound. TBBPA is also used in the preparation of acrylonitrile
butadiene styrene (ABS) polymer as well as in the preparation
of epoxy and polycarbonate resins. These resins have versatile
applications in the manufacture of electronic equipment, in
particular computer-printed circuit boards. The resins are
also used as fire retardants in the manufacture of coatings,
plastics, paints, adhesives and laminates as the high level
activity of TBBPA allows it to be used at relatively low loading,
transulating to a greater retention of the physical properties
of the base polymer. The survey carried out by Chemical Weekly
in 1994 revealed an overall (5-6%) growth in the use of TBBPA.
According to the survey conducted in 1993,
the total global annual production of bromine was estimated
to be about 1.70 lakh tons and about 47% of it had been consumed
in the production of fire retardants only. TBBPA and tetrabromodiphenyl
ether are being used worldwide as potential fire retardants.
Considering that 20% of total world’s bromine production
goes into the manufacture of these compounds, their annual
production has been estimated to be around 0.60 lakh tons.
The bromine production during 1995-2000 in India was found
to be around 2000-2200 tons over and above that of 500-750
tons was imported. Although, bromine also finds many applications
in the manufacture of dyes and drug intermediates, if one
assumes similar trend of bromine consumption as it prevails
the world over, it is expected that the requirement of TBBPA
is about 1000 tons per year in India.
Only a few organized sectors in Indian
Industry are manufacturing TBBPA. Companies like i) M/s Nerka
Chemicals Pvt.Ltd., Vapi; ii) M/s Sky Lead Chemicals, Bhavnagar;
iii) M/s Alkyl Chemicals, Valsad and iv) M/s Kesar Petro Products,
Mumbai had been known in the past to manufacture TBBPA from
liquid bromine in a small scale which was stopped later on
for unknown reason. One of them could be due to low bromine
atom efficiency of the process. The capacity of these units
and their actual production figures are not even known as
such. Under these circumstances, it seems that the market
for the manufacture of TBBPA would attract many entrepreneurs.
Process
Bisphenol-A (BPA) is suspended in a chlorinated
organic solvent in a two neck round bottom flask. Required
amount of the brominating agent, developed by this institute
for substitution reaction, dissolved in water was added to
it. Calculated volumes of commercial grade hydrochloric acid
is added drop wise over 3 h under stirring. After the addition,
the contents are stirred for half-an hour more for the reaction
to complete. The crystallized product is filtered, washed
with water and dried in oven. The organic layer is recycled
for the successive batch by recharging BPA, brominating agent
and acid. After the completion of a number of cycles, the
organic solvent is distilled out to separate the solvent and
the product dissolved in it. The aqueous layer contains excess
unreacted acid and inorganic salts, which can be discharged
after neutralization.
Specifications
of the Product
The dried TBBPA will have the following
characteristics :
| S.No. |
Technique |
Specifications |
| 1. |
Melting point |
178-182oC |
| 2. |
Elemental analysis (%) |
Found Calculated
C : 33.00 - 33.22 33.01
H : 2.18 - 2.21 2.21
Br : 58.00 - 58.68 58.82 |
| 3. |
Self extinguishing property
|
20 Sec. |
| 4. |
Moisture (%) |
8-10 |
| 5. |
Loss on ignition (%)
|
99-98 |
| 6. |
1H-NMR |
1.57 d (s, 3H) and 1.59
d (s, 3H) |
Raw Material and Utility Requirement
- Bisphenol - A
- Brominating agent
- Halogenated organic solvent
- Mineral acid
- Deionized water
- Alkali
- Chlorine
List of Major Equipments
- Glass or glass
lined reactors with accessories like stirrers, motors, rpm
control, distillation assembly etc.
- Separating funnels,
- Filtration unit
- Oven
- Pumps
Economic Aspects of the Product
Raw material and utility cost has been
calculated base don the data collected for the preparation
of 1 kg of TBBPA and the cost figures available from Chemical
Weekly are given in the following table.
Raw materials cost in the preparation of 1 kg of TBBPA using
New Brominating agent developed in this laboratory :-
| Raw Material |
Requirement (Kgs.)
|
Rate per kg. or lit
(Rs.) |
Cost (Rs.) |
| Bisphenol-A |
0.45 |
51 |
23 |
| Brominating agent |
0.60 |
45 |
27 |
| Chemicals (Mineral Acid,
Alkali, Chlorine) |
-- |
-- |
12 |
| Solvents |
-- |
-- |
16 |
| Utilities |
-- |
-- |
5 |
| |
Total |
|
83 |
For further information please contact
:
National Research Development Corporation
( A Government of India Enterprise )
20-22, Zamroodhpur Community Center
Kailash Colony Extension
New Delhi 110 048. India
Tel: 91-11-26419904, 26417821, 26480767, 26432627
Fax: 011-26231877, 26460506, 26478010
Website: www.nrdcindia.com
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