Synthetic resins or natural rubbers -- part of the class 520 ser – Synthetic resins – Polymers from only ethylenic monomers or processes of...
Reexamination Certificate
2000-02-24
2001-11-20
Wu, David W. (Department: 1713)
Synthetic resins or natural rubbers -- part of the class 520 ser
Synthetic resins
Polymers from only ethylenic monomers or processes of...
C526S062000, C526S291000
Reexamination Certificate
active
06320001
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a process for producing a polymer by polymerizing in a polymerization vessel a monomer having an ethylenic double bond, and particularly a process that can prevent polymer scales from adhering to polymerization vessel inner wall surfaces and others and can produce polymers having a good quality.
2. Description of the Prior Arts
As known in processes for producing polymers by polymerizing monomers in polymerization vessels, there is a problem that polymers may adhere to polymerization vessel inner wall surfaces and others in the form of scales.
Such polymer scales having adhered to polymerization vessel inner wall surfaces and others may cause a decrease in yield of polymers, a decrease in cooling capacity of polymerization vessels, and a lowering of product quality when polymer scales having adhered come off to mix into polymer products, and also may bring about a disadvantage that much labor and time must be taken to remove the polymer scales.
Moreover, since the polymer scales contain unreacted monomers, there is a possibility that operators are exposed to them to cause physical disorder.
Accordingly, in the polymerization of monomers having ethylenic double bonds, in order to prevent polymer scales from adhering to polymerization vessel inner wall surfaces and others, methods of preventing the adhesion of polymer scales by one-stage coating (hereinafter “one-stage coating method”) are proposed, as exemplified by a method in which a polar organic compound such as an amine compound, a quinone compound or an aldehyde compound or a dye or pigment is coated as a “polymer scale preventive agents” on polymerization vessel inner wall surfaces, stirrers and so forth (Japanese Patent Publications (kokoku) Nos. 45-30343 and 45-30835), a method in which a polar organic compound or dye treated with a metal salt is coated (Japanese Patent Publication (kokoku) No. 52-24953, a method in which a mixture of an electron-donating compound and an electron-accepting compound is coated (Japanese Patent Publication (kokoku) No. 53-28347), a method in which a condensation reaction product of 1-naphthol with formaldehyde is coated (Japanese Pre-examination Patent Publication (kokai) No. 57-164107), a method in which a condensation reaction product of a phenol compound with formaldehyde is coated (Japanese Pre-examination Patent Publication (kokai) No. 57-192413), a method in which a polyaromatic amine is coated (Japanese Patent Publication (kokoku) No. 59-16561), a method in which a self-condensation product of a polyhydric phenol or a self-condensation product of a polyhydric naphthol is coated (Japanese Pre-examination Patent Publication (kokai) No. 54-7487), a method in which a condensation reaction product of a ketone resin with a phenol compound is coated (Japanese Pre-examination Patent Publication (kokai) No. 62-236804), a method in which a condensation reaction product of an aromatic amine with an aromatic nitro compound and a material obtained by making the compound basic are coated (Japanese Patent Publication (kokoku) No. 60-30681), and a method in which a condensation reaction product of an aromatic amine with a quinone compound is coated (Japanese Pre-examination Patent Publication (kokai) No. 61-7309).
In the case of polymer scale preventive coating films obtained by such one-stage coating methods, scales tend to adhere to the vicinity of a gas-liquid boundary surface in the polymerization vessel during polymerization, or, depending on the composition of a polymerization reaction mixture, scales tend to adhere to the whole wall surface. Accordingly, to prevent this, it is known to mix in a coating liquid containing the polymer scale preventive agent a water-soluble polymeric compound such as an anionic polymeric compound, an amphoteric polymeric compound, a cationic polymeric compound or a hydroxyl-group-containing polymeric compound; an inorganic colloid; or a substance having no affinity for monomers, as exemplified by an inorganic salt such as an alkali metal salt (hereinafter “polymer scale preventive auxiliary agents”). These one-stage coating methods are effective for preventing the adhesion of polymer scales when monomers having ethylenic double bonds are polymerized in polymerization vessels.
In instances where no sufficient polymer scale prevention effect can be obtained by the one-stage coating method, a method of preventing the adhesion of polymer scales by two-stage coating (hereinafter “two-stage coating method”) is proposed, which comprises a) coating a coating liquid containing the polymer scale preventive agent as described above, to form a first layer, and b) coating further thereon a coating liquid containing the above polymer scale preventive auxiliary agent, to form a second layer (Japanese Pre-examination Patent Publication (kokai) Nos. 3-74404, 2-80403, 2-80402, 2-80401 and 2-47102).
In both the above one-stage coating method and two-stage coating method for preventing the adhesion of polymer scales, spray coating is usually used as a coating process in view of productivity including operability.
In the one-stage coating method of coating the polymer scale preventive agent by spray coating, the coating film is formed by a process comprising the following steps 1 to 3. Step 1: A coating liquid containing the polymer scale preventive agent is coated on the polymerization vessel inner wall surface and other surfaces with which monomers come into contact. Step 2: The coated surfaces are dried to form a dry film. Step 3: The surface of the coating film thus formed is washed to remove any excess coating liquid.
In the two-stage coating method comprising coating the polymer scale preventive agent and coating the polymer scale preventive auxiliary agent both by spray coating, the coating film formation comprising the same steps 1 to 3 as the above is operated also in the second-stage coating.
When the above spray coating is used, the surfaces of baffles and stirring blades that face polymerization vessel inner wall surfaces stand within the dead angle from a spray nozzle. Since it is hard for the coating liquid to reach the surfaces of such portions standing blind or hidden from the spray nozzle, the polymer scale preventive agent can not be coated thereon in the same way as on the surfaces not standing blind. Thus, it is difficult to form a uniform coating film over the surfaces standing blind and the surfaces not standing blind. If a coating film in a quantity effective enough to prevent the adhesion of polymer scales is intended to be formed also on the blind surfaces, it is inevitable to use a coating liquid containing the polymer scale preventive agent in a larger quantity than that for the other surfaces. It follows that an unnecessarily excess preventive agent is applied on the surfaces not standing blind. Hence, the coating film thus formed have had an uneven coating thickness and the coating film have had a larger thickness locally than is necessary.
The formation of polymer scale preventive coating films by spray coating has also had the following problems.
(1) Usually, the coating film comprising the polymer scale preventive agent is formed previously for each polymerization batching. Since it is common for the polymer scale preventive agent to have a color, the polymer scale preventive agent is repeatedly coated as the polymerization is batched repeatedly in a larger number, so that the coating film may have a large thickness at some part. The part having such a thick coating film may come off to become included into the reaction mixture, or the scale preventive agent may be coated on polymer scales having already adhered to the polymerization vessel inner wall surfaces and others and may come off together with a part of the scales to mix into the resultant polymerization products. This may cause colored particles or fish eyes brought in their formed products or may cause a low product quality such as a high initial discoloring of formed products, disadvantageously.
(2) As stated
Noguki Genji
Shimizu Toshihide
Watanabe Mikio
Cheung William K
Oblon & Spivak, McClelland, Maier & Neustadt P.C.
Shin-Etsu Chemical Co. , Ltd.
Wu David W.
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