Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Polymers from only ethylenic monomers or processes of...
Reexamination Certificate
2001-02-28
2002-05-14
Zitomer, Fred (Department: 1713)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Polymers from only ethylenic monomers or processes of...
C526S247000, C526S250000, C526S253000, C526S255000
Reexamination Certificate
active
06388033
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a process for preparing a fluoropolymer. In particular, the present invention relates to a process for safely carrying out a batchwise polymerization by making the composition of a monomer mixture, which are supplemented under a high pressure, outside an explosion limit.
2. Prior Art
When a fluorine-containing copolymer comprising hexafluoropropylene (HFP) is prepared, a monomer mixture in a polymerization system should contain 50 to 90% by mole of HFP to obtain a copolymer containing 5 to 20% by weight of HFP. In addition, usually the supplemented monomer mixture should be supplied under a high pressure of at least 1 MPaG.
In general, the HFP content in the obtained copolymer is less than the HFP content in the monomer mixture present in the polymerization system because of the different of the polymerization reactivities of HFP and other monomer(s). This means that the other monomers are more consumed than HFP. Thus, the HFP content in the supplemented monomer mixture is maintained less than 30% by mole. However, the monomer mixture containing less than 30% by mole of HFP is in the explosion limit depending on the process pressure. Nevertheless, the supplemented monomer mixture should be pressurized and supplied in the polymerization system. Thus, the polymerization process is always threatened with the danger of explosion.
For example, in Examples described in JP-B-61-43364, after water and a dispersant are charged in a reactor, HFP and tetrafluoroethylene (TFE) are supplied, and then a polymerization initiator is charged to initiate the polymerization. After the initiation of the polymerization, TFE is supplied in the reactor with varying a stirring speed to maintain a polymerization pressure at 4.1 MPa.
In the conventional batchwise process for preparing a copolymer of TFE and ethylene, as described in, for example, JP-A-6-211933, the polymerization is carried out with adding perfluorocyclobutane to the mixture of TFE and ethylene so that the composition is outside the explosion limit. To increase the productivity, it is necessary to increase the polymerization reaction rate. When the polymerization pressure is increased to increase the reaction rate, it is inevitable to increase the pressure of the monomers supplied. To maintain the condition outside the explosion limit under such a high pressure, the content of perfluorocyclobutane in the monomer mixture should be increased. However, if the content of perfluorocyclobutane is increased, the amount of perfluorocyclobutane in the polymerization reactor increases and thus the space volume utilized by the polymerization in the reactor decreases. Therefore, the yield of the polymer per unit volume of the reactor decreases.
SUMMARY OF THE INVENTION
One object of the present invention is to provide a process for effectively preparing a fluoropolymer by a batchwise polymerization while supplying a monomer mixture comprising TFE safely.
According to the present invention, there is provided a process for preparing a fluoropolymer comprising batchwise polymerizing a monomer mixture containing tetrafluoroethylene and optionally at least one comonomer selected from the group consisting of hexafluoropropylene, vinylidene fluoride, trifluorochloroethylene, ethylene and perfluoroalkyl vinyl ethers, wherein after the initiation of a reaction, the monomers are reacted under conditions such that the monomer mixture is supplemented to a polymerization system in an amount more than the amount of the monomers consumed and simultaneously the excessive unreacted monomers are discharged from the polymerization system to maintain the monomer composition in the polymerization system substantially the same as that of the composition of the monomer mixture initially charged, and the monomer mixture supplemented to the polymerization system contains a compound suppressing the autoexplosion of the monomers.
Herein, the term “autoexplosion” is intended to mean the abrupt increase of a temperature and a pressure caused by the abrupt self-decomposition of TFE. The term “explosion limit” is intended to mean marginal conditions (e.g. the monomer composition, pressure, etc.) where the monomer gas explodes when an energy of 1 to 2 J is applied to the monomer gas sealed in a closed vessel. When the monomer mixture explodes by the application of an energy of 1 to 2 J, the monomer mixture is within the explosion limit.
DETAILED DESCRIPTION OF THE INVENTION
The fluorine-containing polymer or copolymer prepared by the process of the present invention is a polymer comprising TFE. In the case of the copolymer, examples of the comonomer include hexafluoropropylene (HFP), vinylidene fluoride (VdF), trifluorochloroethylene (FCl), ethylene (Et) and perfluoroalkyl vinyl ethers (PAVE) (e.g. perfluoromethyl.vinyl ether (PMVE), perfluoroethyl vinyl ether (PEVE), perfluoropropyl vinyl ether (PPVE), etc.), and the like.
According to the present invention, the monomer or the monomer mixture contains a compound suppressing the autoexplosion of the monomer(s). Examples of such a compound include HFP which is a monomer and also functions as a compound suppressing the autoexplosion of the monomer(s); a compound which is used as a solvent for the polymerization and does not substantially interfere with the polymerization, for example, perfluorocyclobutane (C318), etc.; and a compound which is used as a diluent of the monomer(s) and does not substantially interfere with the polymerization, for example, perfluoromethane, perfluoroethane, perfluoropropane, perfluorobutane, etc. These compounds may be used independently or as a mixture of two or more of them.
In the process of the present invention, TFE and at least one monomer selected from the group consisting of hexafluoropropylene, vinylidene fluoride, trifluorochloroethylene, ethylene and perfluoroalkyl vinyl ethers is batchwise polymerized.
In a preferred embodiment of the present invention, the monomers supplemented to the polymerization system are tetrafluoroethylene and ethylene, a compound suppressing the autoexplosion of the monomers is perfluorocyclobutane, and the content of perfluorocyclobutane is at least 5% by mole, or the monomer supplemented to the polymerization system is tetrafluoroethylene, and a compound suppressing the autoexplosion of the monomer is at least one compound selected from the group consisting of perfluoromethane, perfluoroethane, perfluoropropane and perfluorobutane.
In a more preferred embodiment, the monomer mixture supplemented to the polymerization system comprises tetrafluoroethylene, hexafluoropropylene and optionally ethylene and/or vinylidene fluoride, and hexafluoropropylene is used as a compound suppressing the autoexplosion of the monomer. In this case, the content of hexafluoropropylene is at least 35% by mole, while the fluoropolymer obtained contains less than 35% by mole of hexafluoropropylene.
In a particularly preferred embodiment, the monomer mixture supplemented contains tetrafluoroethylene and hexafluoropropylene; tetrafluoroethylene, hexafluoropropylene and ethylene, or tetrafluoroethylene, hexafluoropropylene and vinylidene fluoride.
The specific examples of the polymers and their compositions, the charged monomers and their compositions, and the compound suppressing the autoexplosion of the monomers (explosion-suppressing compound) are listed below.
TABLE 1
Explosion-
Polymer
Charged monomer
suppressing
(composition: molar ratio)
(molar ratio)
compound
TFE-HFP-PAVE copolymer
TFE/HFP/PAVE =
HFP
(TFE/HFP/PAVE =
10-65/90-35/0-10
65-95/5-30/0-2)
TFE-HFP-VdF copolymer
TFE/HFP/VdF =
HFP
(TFE/HFP/VdF =
20-50/30-60/20-50
40-50/5-15/40-50)
TFE-HFP-Et copolymer
TFE/HFP/Et =
HFP
(TFE/HFP/Et =
30-40/50-60/5-20
30-50/5-25/33-55)
TFE-Et copolymer
TFE/Et/C318 =
C318
(TFE/Et =
40-60/30-50/5-25
40-60/40-60)
TFE-PMVE copolymer
TFE/PMVE/CF
4
=
CF
4
(TFE/PMVE =
5-90/10-90/5-20
97-50/3-50)
TFE-PAVE copolymer
TFE/PAVE/CF
4
=
CF
4
(TF
Komatsu Satoshi
Noda Tomohisa
Daikin Industries Ltd.
Zitomer Fred
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