JPH0680111B2 - Method for producing low dust polycarbonate resin solution - Google Patents

Description

TECHNICAL FIELD The present invention relates to a novel method for producing a high-purity polycarbonate resin solution from which dust has been removed, and more specifically, a polycarbonate resin solution containing free water is centrifuged. Then, the low-dust polycarbonate resin solution is produced by separating the resin solution phase from the interface and the aqueous phase.

According to the method of the present invention, it is possible to easily reduce the dust of 0.5 μm or more in the resin solution to 10,000 or less / g solid resin, and under the most preferable operating conditions, it can be achieved by the conventional microfiltration filter. It was difficult to be practically 0 /
g A low dust polycarbonate resin solution which is a solid resin can be obtained.

[Conventional technology and its problems]

Conventionally, as a method for removing fine dust in a polycarbonate resin solution, there are used a method of using a reaction raw material such as a monomer, a catalyst, a solvent and the like which has been microfiltered, a method of microfiltering a produced resin solution, and the like.

Since this method uses a precision filter for filtration, it is necessary to use an extremely precise filter in order to remove fine dust. However, there is a drawback that the filtration efficiency is poor because the amount of water is reduced.

Further, in order to carry out filtration and purification efficiently, it is necessary to frequently replace the filtration filter, the amount of filtration treatment is large, and an improved method has been demanded in terms of operation and cost.

Further, in the production of the polycarbonate resin, in the step of purifying the polycarbonate resin solution obtained by the polymerization reaction, the conventional centrifugal separation method is used to separate the resin solution and the washing water, but this centrifugal separation method is Usually, the washing water for removing unreacted monomers, catalysts, and other impurities in the resin solution is separated from the resin solution phase, and the water phase is removed and separated to some extent. The interface with the phase was treated as the resin solution phase side, and the dust reduction effect was substantially small. Further, in terms of removal of free water, since the removal of dust is not intended even in terms of centrifugal force and separation processing time, it is naturally insufficient, and the effect of reducing dust as in the present invention cannot be achieved.

[Means for solving problems]

Regarding the reduction of dust in the polycarbonate resin solution, the inventors conducted various studies such as a thorough analysis of the manufacturing process to find that the dust distribution during washing and purification of the resin solution was The present invention has been completed as a result of further investigations based on the finding that the interface, the resin solution phase, and the water phase were significantly decreased in this order.

That is, the present invention, the reaction product obtained by the solution polymerization method, an aromatic polycarbonate resin solution containing free water obtained by separating the organic phase and the aqueous phase, or a polycarbonate resin is dissolved in a solvent pure Aromatic polycarbonate resin solution containing free water mixed with water, 500G
A method for producing a low-dust polycarbonate resin solution, which comprises centrifuging with the above centrifugal force to separate the resin solution phase from the interface and the aqueous phase.

Furthermore, the resin solution in which the free water phase and the resin solution phase obtained by continuously performing the centrifugal separation are phase-separated is transferred to a stationary tank and allowed to stand still, and a low dust that separates the interface and the aqueous phase. This is a method for producing a polycarbonate resin solution.

In the method of the present invention, in a preferred embodiment, the viscosity of the aromatic polycarbonate resin solution containing free water to be subjected to centrifugal separation treatment is 10 to 3,000 cp, preferably 50.
~ 300cp, centrifugal force is more than 500G (G is gravitational acceleration 9.8
0665 m / sec ² ), preferably 1,000 G or more, particularly 5,000 G or more.

The resin solution phase obtained in this way has a significantly reduced dust, and is 0.5 μm in the polycarbonate resin solution.
The above dust amount is 1g of polycarbonate resin (solid resin)
Per 10,000 or less, and in the most preferred embodiment, a polycarbonate resin solution which is substantially 0 / g solid resin is obtained.

The structure of the present invention will be described below.

The polycarbonate resin solution in the present invention is a normal solution polymerization method, that is, a reaction product obtained by a method of reacting an aromatic dihydric phenol compound and phosgene is washed with water and washed to contain free water obtained by separating an aqueous layer. Resin solution, or a polycarbonate resin is a resin solution containing free water obtained by re-dissolving a polycarbonate resin with a solvent and adding pure water, and the viscosity of the solution is usually 10 to 3,000 cp, preferably 50 to 3
00cp, resin concentration 1 to 50% by weight, preferably 10 to 25
% By weight, and the viscosity average molecular weight (Mv) of the polycarbonate resin is from 1 × 10 ³ to 200 × 10 ³ .

Such a polycarbonate resin is a branched polycarbonate resin, or an unbranched polycarbonate resin,
In addition, there are polycarbonate resin resins in which the terminal terminator is variously changed, and these may be either homopolycardnate resin or copolycarbonate resin.

The solvent used for re-dissolving the polycarbonate resin is not particularly limited as long as it dissolves the above polycarbonate resin and can be phase-separated from water, but a solvent having a lower water solubility is preferable. Such a solvent is an aliphatic hydrocarbon-based or aromatic hydrocarbon-based solvent, and specifically, methylene chloride, 1,1-
Examples are chlorinated aliphatic hydrocarbons or aromatic hydrocarbons such as dichloroethane, chlorobenzene and chlorotoluene. Of these, methylene chloride is particularly preferable.

When carrying out the centrifugal separation treatment of the present invention, water may be added to and mixed with the polycarbonate resin solution applied to the present invention as required to obtain a polycarbonate resin solution containing free water. Since the water used at this time is used for removing fine dust in the resin solution, pure water is generally used, but this pure water is preferably as small as possible mixed dust amount, In particular, those that have been reduced in dust by microfiltration or the like are preferable.
However, when performing centrifugal separation and phase separation operations in multiple stages, and when extreme dust removal is not required in the previous stage of the separation operation, etc., the amount of dust in water is 500 to 1,000 pieces / 1cc or less It can be used even with pure water after replacement.

In the polycarbonate resin solution containing free water of the present invention, the amount of free water, that is, separable water, is effective in reducing dust if present to some extent, but is usually 0.5% by weight or more from the viewpoint of phase separation, There is no particular upper limit as long as it is present in an amount of 1% by weight or more, but an excessively large amount is not preferable from the economical point of view, and usually 200% by weight or less, particularly preferably 5 to 30% by weight.

The centrifugal separation operation in the present invention is to perform phase separation far more strictly than the normal separation by which the resin solution phase and the aqueous phase are separated. That is, when there is a large amount of free water with respect to the polycarbonate resin solution, it seems that the resin solution phase and the aqueous phase are phase-separated at first glance,
In the resin solution phase is present in the form of fine particles of fine water dispersed, conversely exists in the form of fine particles of the resin solution also in the aqueous phase, as can be seen from the examples below, A large amount of dust is present in this portion (that is, the interface). The centrifugal separation operation of the present invention efficiently removes the free water dispersed in the form of fine particles from the resin solution to reduce dust in the resin solution.

The resin solution phase and the aqueous phase, which have been phase-separated by centrifugation according to the present invention, are in a phase-separated state even in a transfer process using an ordinary pipe or other means without stirring unless a mixing operation such as a special stirring operation is performed. It is kept and easily phase-separated by standing. Therefore, it is possible to separate the interface and the aqueous phase by transferring the centrifugally separated resin solution to a stationary tank by a means without stirring operation and allowing it to stand still.

The centrifugation used in the method of the present invention includes 50
A normal centrifugal force can be used as long as it has a centrifugal force of 0 G or more, but a higher centrifugal force, in particular 5,
Those capable of continuous operation at 000 G or higher are preferable. The centrifugation and phase separation operations may be performed once if a sufficiently high centrifugal force can be achieved, but if the centrifugal force is insufficient or the processing efficiency is improved, this centrifugation A method of repeating the operation two or more times to sequentially reduce dust is also one of the preferable embodiments. Further, as a stationary tank for arranging the solution that has been phase-separated by centrifugation, no special structure is required, and an ordinary container can be used.

〔Example〕

Example 1 2,2-bis (4-hydroxyphenyl) propane (hereinafter referred to as B
A methylene chloride solution of a polycarbonate resin obtained by an interfacial polymerization method using PA as a main raw material is subjected to alkali extraction, and then the organic phase is neutralized with phosphoric acid and then washed with water (1
And the aqueous phase was separated to obtain a polycarbonate resin solution.

This resin solution has a dust amount of 0.5 μm or more (hereinafter referred to as the number of fine particles) 30,000 / g solid resin, a viscosity of 180 cp, a polycarbonate molecular weight (Mv) of 20,000, a concentration of 17% by weight, and a pH of 3.
5 and contained 0.6% by weight of free water.

This resin solution was treated with a centrifuge for a residence time of 10 minutes as described in Table 1, and then treated with a resin solution phase and an interface (in the examples of the present application, since the amount of free water was small, all were treated as an interface).
Table 1 shows the results of examining the amount of dust of 0.5 μm or more on all the wall surfaces.

The amount of resin was 200 g, and the number of fine particles was measured with a fine particle counter made by HIAC / Leuco. Furthermore, from the results of measuring the number of fine particles at the interface on the resin solution phase side and the sample collected from the water phase side, it was found that almost all the fine particles were present at the interface on the water phase side. .

The number of fine particles (* 1) in the table was based on the following criteria.

Number of fine particles (* 1) ・ Resin solution: Number / 1g polycarbonate resin ・ Interface: Number / 1cc interface solution ・ Wall wall: Number of fine particles adhering to all wall ・ Water phase: Number / 1cc water phase The balance of the number of fine particles is not 100%, but such fluctuations in the balance are unavoidable from the present situation.

Example 2 Using the same polycarbonate resin solution as in Example 1,
Ultrapure water (dust: 10 pieces / cc) 50% by weight with respect to the resin solution
The same procedure as in Example 1 was carried out except that the one that was mixed and stirred was used. The results are shown in Table 2.

It can be seen from Table 2 that when washing and centrifuging with pure water, if the centrifugal force and centrifugation time are sufficient, the number of fine particles in the resin solution is substantially 0 / 1g solid resin. It is understood that it can be obtained. Further, as the centrifugal force increases, the number of dusts in both the resin solution phase and the water phase decreases, and there is a tendency to concentrate on the interface. This tendency and the first embodiment
From the measurement of the number of fine particles at the interface of, most of the dust (fine particles) adheres to the free water in the resin solution and the free resin solution in the aqueous phase in large amounts, and these migrate to the interface as the centrifugal force increases, It is speculated that this appeared as an increase in the number of dust particles at the interface.

Example 3 Using the same polycarbonate resin solution as in Example 1,
Ultrapure water (dust: 10 pieces / cc) was mixed and stirred at 100% by weight with respect to the resin solution, and the same procedure was performed except that the centrifugation time was changed. The results are shown in Table 3.

[Operation and Effect of the Invention] As is apparent from the above, the method for producing a low dust polycarbonate resin solution of the present invention does not require the use of a conventional precision filter for substantially purifying the resin solution. No complicated filtration operation is required.

A resin solution in which the number of dust particles of 0.5 μm or more is 10,000 pieces / g or less of solid resin can be easily obtained.

In a further preferred method, a resin solution of substantially 0/1 g solid resin is obtained which is not easily achieved using a precision filter.

The method of the present invention is not limited to special applications such as optical applications, since it is easy to operate for reducing dust and is economical, it can also be applied to the purification of ordinary polycarbonate resin materials. That is an extremely excellent method.

 ─────────────────────────────────────────────────── --Continued front page (56) References Japanese Patent Publication Sho 55-14093 (JP, B2)

Claims (3)

[Claims] 1. A reaction product obtained by a solution polymerization method,
A polycarbonate resin solution containing free water obtained by separating the organic phase and the aqueous phase, or a polycarbonate resin solution containing free water obtained by dissolving the polycarbonate resin in a solvent and adding pure water to the solvent, and a centrifugal force of 500 G or more. A method for producing a low-dust polycarbonate resin solution, which comprises centrifuging with a resin to separate a resin solution phase from an interface and an aqueous phase. 2. The method for producing a low dust polycarbonate resin solution according to claim 1, wherein the viscosity of the polycarbonate resin solution containing free water is in the range of 10 to 3,000 cp. 3. A patent which separates an interface and an aqueous phase by transferring a resin solution obtained by continuously separating a free water phase and a resin solution phase by phase separation to a stationary tank and allowing the resin solution to stand still. The method for producing a low dust polycarbonate resin solution according to claim 1.