TH7989A - A continuous process for preparing resins that are compacted with improved rubber. - Google Patents

Abstract

The process is used for the preparation of extruded resins with modified rubber (H1-PS and ABS) by polymerization of initial monomers with aromatic monomers. Mastic, vinyl or mixtures of aromatic, vinyl, and monomers. Vinyl cyanide-filled polymer with rubber release characteristics And use at least two polymerization reagents and a particle disperser is installed between them. Do both reactions This process produces a high quality resin by determining the relationship between the The polymer to be polymerized in the first reagent. And a mixture of polymers that resemble rubber In the first reagent And between the seized quantity With the polymer liquid in the first reagent And the internal volume of the particle disperser And edge speed The periphery measured in a straight line of the agitator in the particle disperser.

Claims (7)

1. The process is used for the preparation of continuously improved resins that have been tightened with rubber. Reagent Polymerization of at least two and one particle disperser is used. And consists of steps (1), initializing a solution obtained by dissolving rubber-like polymers in Initial concept Where this rubber-like polymers can be disintegrated, such initial monomers consisted of amorphous monomers. At least one Romedix vinyl in volumes from 47 to 99 parts by weight. Where the amount of the monomer will go up Is based on the total amount of 100 parts by weight of rubber-like polymers, initial monomers and organic solvents if Use or mixtures of initiators, polymerization, aromatic monomers, at least a little vinyl, and monomers. Vinyl cyanide mortar In the ratio of aromatic monomers The vinyl per cyanide monomer is 50:50 to 95: 5. The initial monomer is continuously dispensed into the carrier. One (2) of the polymerization reaction causes the initial polymerization of the monomer in the agent. First reaction In order to get the reaction liquid until Even the concentration of polymer obtained from polymerization Session, which conveys the desired intensity for the reversal of the post. Polymers are granules of rubber particles dispersed in the reaction fluid up to desired in the first (3) reagent. Separate the reaction liquid with granular rubber-like polymer particles. Is going out of the first reagent in the right amount. To the amount of the initial solution that was supplied into the agent The first (4) reaction enters the reaction fluid taken from The first reagent enters the particle dispersion The shearing agitator consists of a rotating shaker or a cylindrical agitator mounted and rotated. At high speed In order to bring the pellet particles of the polymer Rubber-like, which is made in the reaction fluid to the shear reaction by the shear agitator in the particle disperser (5), the reaction liquid is fed to the process. Already cut in the particle disperser Go into the maker A second polymerization reaction, where the amount of poly The morphs made from the initial monomer remain at a value of 25 percent or more according to the conversion ratio of the monomer. More at the beginning of the product And how does the polymerization reaction The session of the reaction fluid continues in the second reagent. Where polymerization is performed under condition (A) by the following formula (chemical formula) where V1 is the amount bound by the reaction fluid in First reagent and V2 is the internal volume of the Diffuse pellet particle (B), the velocity of the periphery arranged as a path. Of the shaker or rotator to rotate at a value of 0.5 m / s or faster, and (C) the following formula (chemical formula) where X1 is the proportion of rubber-to-liquid polymers The reaction at the discharge channel of the first reagent by weight percentage and X2 is the ratio of the resulting polymer Rises from the initial monomer to the reaction fluid at the discharge channel Out of the first reagent by weight percentage 2. The process identified in claim 1, where a particle disperser with at least three rotors cuts Each key or cylindrical ring at least one Which is on the rotating shaft Which can rotate at high speed inside it and the rotary shear Will exist in the room with the body Block or stator mounted between the shear rollers. That cut two that are right next to each other Or will continue in order Each other in different rooms that are installed next to each other in relation to the direction The flow of the reaction fluid to be carried out in the body Spread the pellets such particles 3. The process identified in claim 1 where the agitator The doped in such a granule diffuser contains a mixture of At least three parts Each part is joined by a rotating shape The cylinder and the stator are coexisted with a gap in it. Between the rotor and the stator and where the agitator cuts Operate under the condition of the following formula (chemical formula) where h is the length of the said gap, measured in meters at Is between the rotator and the stator located next to each other, and V is the perimeter speed measured in a straight line, as Say of the rotor in meters per second 4. The process identified in claim 1, where the liquid The reaction taken from the first reagent will It is fed through a whirlpool tube with a particle disperser to carry the liquid into the machining process. Particles in the liquid, the reaction is also performed The shear cutter in the particle disperser while pushing The reaction fluid is rotated through the spiral tube. Such as the pump and the rotation of the liquid. It is done under the condition of the following formula (chemical formula) where F1 is the original volume of the supplied solution. In the first reagent for a certain period of time, F2 is the volume of the said reaction fluid that is rotated through the tube. Swirling for a certain period of time as mentioned above. 5.Processes set out in Claim 3, where the original inclusion constitutes: Rubber-like polymers with a viscosity of 100 centipoise or less in a 5% styrene solution by weight at 25 ํ and the initial monomer has Vinyl aromatics And vinyl cyanide monomers At the ratio of aromatic vinyl monomers to vinyl monomers in the range from 95/5 to 50/50 with weight being applied. In the first reagent with the initiator of the poe Polymerization with a fission temperature of 100 ํ or less, corresponding to a 10-hour half-life of 30 ppa by weight or more, by Relative to the amount of the initial solution to be dispensed into The first reagent in order to satisfy the formula (chemical formula) where X1 is the proportion of rubber-like polymers to liquid The reaction at the discharge channel of the first reagent by weight percentage and X2 is the ratio of the resulting polymer. Rises from the initial monomer to the reaction fluid at the discharge channel Out of the first reagent by weight percentage 6.Process set out in Claim 1, where the original inclusion constitutes: Rubber-like polymers with a viscosity of 100 centipoise or less in a 5% styrene solution by weight at 25 ํ and the initial monomer has Vinyl aromatics And vinyl cyanide monomers At the ratio of aromatic vinyl monomers to vinyl monomers in the range from 95/5 to 50/50 with weight being applied. In the first reagent with the initiator of the poe Polymerization with a fission temperature of 100 ํ or less, corresponding to a 10-hour half-life of 30 ppa by weight or more, by Relative to the amount of the initial solution to be dispensed into First reagent In order to obtain according to the formula (chemical formula), where X1 is the proportion of rubber-like polymers to liquid. The reaction at the discharge channel of the first reagent by weight percentage and X2 is the ratio of the resulting polymer. Rises from the initial monomer to the reaction fluid at the discharge channel Out of the first reagent by weight percentage 7.Process set out in Clause 2, where the original inclusion constitutes: Rubber-like polymers with a viscosity of 100 centipoise or less in a 5% styrene solution by weight at 25 ํ and the initial monomer has Vinyl aromatics And vinyl cyanide monomers At the ratio of aromatic vinyl monomers to vinyl monomers in the range from 95/5 to 50/50 with weight being applied. In the first reagent with the initiator of the poe Polymerization with a fission temperature of 100 ํ or less, corresponding to a 10-hour half-life of 30 ppa by weight or more, by Relative to the amount of the initial solution to be dispensed into First reagent In order to obtain according to the formula (chemical formula) where X1 is the proportion of rubber-like polymers in liquid The reaction at the discharge channel of the first reagent by weight percentage and X2 is the ratio of the resulting polymer. Rises from the initial monomer to the reaction fluid at the discharge channel Exit of the first reagent by weight percentage (7 claims, 6 pages, -Figure).