TH34004B - Polymer particle preparation - Google Patents

Abstract

DC60 (10/02/53) The fabrication provides a process for the preparation of particle-sized polymer particles. average of at least 50 µm, which the process will consist of: (b) Using the first granular material, suspended polymerization operations to achieve Secondary particle polymer material with an average particle diameter larger than the The particle diameter of one such granular material and if you want The use of the second granular material is as follows. It is said to perform at least one additional polymerization step to obtain the granular material. particle polymer with an average size greater than 50 µm. The mean center of the particles in the step (b) is at least twice as large and (c) may elect to saturate and/or treat the heat and/or refine the particulated product surface. of the procedure (b) characterized by At least one step hanging polymerization As a result, step (b) involves (i) the formation of aqueous dispersants consisting of granular materials, polymers, organic compounds (i.e. polymerization initiator) with a molecular weight of less than 5000 Daltons and Solubility in water less than 10 to the power-2 g/L at 25 °C Stabilizer and optional stabilizer. organic solvents (i.e. acetone or some of the aforementioned monomers) (ii) allowing such organic compounds to diffuse into the granular material to produce the resulting granular material. and (iii) exposure of the aforementioned activated granular material to monomers (i.e. styrene) and the initiator of polymerization and production. Hanging polymerization The fabrication provides a process for the preparation of particle-sized polymer particles. average of at least 50 µm, which the process will consist of: (b) Using the first granular material, suspended polymer synthesis operations to achieve Secondary particle polymer material with an average particle diameter larger than the The particle diameter of one such granular material and if you want The use of the second granular material is as follows. It is said to perform at least one additional polymer synthesis step to obtain the granular material. The particle polymer has an average size greater than 50 µm. increase in diameter The mean center of the particles in the step (b) is at least twice as large and (c) may elect to saturate and/or treat the heat and/or refine the particulated product surface. of the procedure (b) characterized by The hanging polymerization is at least one step. As a result, step (b) involves (i) the formation of aqueous dispersants consisting of polymer granules, organic compounds (i.e. polymerization initiator), which has a molecular weight of less than 5000 Daltons and is Solubility in water less than 10 g/L at 25 C Stabilizer and optional stabilizer. organic solvents (i.e. acetone or some of the aforementioned monomers) (ii) allowing such organic compounds to diffuse into the granular material to produce the resulting granular material. and (iii) exposure of the aforementioned activated granular material to a monomer (i.e. styrene) and polymerization initiator. and produces a suspended polymerization effect.

Claims (4)

Disclaimer (all) which will not appear on the announcement page: 1. The process for the preparation of polymer particles with a minimum average particle size (mode) of 50 μm, in which the process includes (a ) Obtaining first-diameter particle polymer granular material (B) Using the first granular material, a suspension polymer synthesis was performed to obtain A second partition polymer granular material with an average particle diameter larger than its size. Particle diameter of the first granular material And if you want Second grain material At least one more step was to synthesized the suspension polymer to obtain The average particle size of the polymer granule material is greater than 50 μm, thus increasing the average diameter of the particles in the step (b) by at least twice. Polymerization of the sun will be suspended in at least one step. As a result, step (b) involves (i) the formation of an acrylase dispersant composed of polymer pellet materials, organic compounds with a molecular weight of less than 5000 dals. It has a water solubility of less than 10 g / l at 25. Stabilizers and organic solvents may be chosen (ii) allowing such organic compounds to be dispersed into granular materials for Produce the resulting granular material And (iii) exposure of the stimulated granular material to the monomer and the initiator of the Polymerization sun While producing the polymerization effect of these substances, 2. The process, as held in claim 1, consists of impregnation. (impergnting) and / or heat treatment and / or surface modifications. Procedure Particulate (b) 3. Process, as it is held in claim 1 or 2, where the partition material is The first one has an average particle diameter of not more than 40 μm. 4. The process of which one of the claims 1 to 3 is held. Where the granular material is The first partition has an average particle diameter of not more than 30 μm. 5. Process as held in any of Claims 1 to 4. Where the granular material The polymers resulting from the procedure (b) have an average size of more than 70 μm. 6. Process according to one of Claims 1 to 5. Where the granular material The polymers resulting from the procedure (b) have a mean size greater than 100 μm 7. Process as held in one of Clause 1 to 6. Where the increase in size The average diameter of the particles in such step (b) is at least four times. 8. Process as it holds in any of claims 1 to 7. Where the increase in size The average diameter of the particles in such a step (b) is at least 10 times. 9. Process according to one of the previous claims. Included Additional impregnation of polymer particles with a bloeing agent 1 0. Processes for preparing expanded polymer products that include: The expansion of the particle size produced by the process as claimed in Claim 9 1. 1. The use of particles that are sufficient to be produced by the process in which any claim is made. Any one of the 1st to 8th claim. For lifting or synthesis 1 2.Process for the preparation of polymer particles as claimed in Clause 1, in which water soluble polymerization inhibitors are added in step (iii) 1. 3. The process by which the right is held in claim 12, where the inhibitor is Potassium iodide 1 4. The process by which claim is held in claim 12 or 13 where the inhibitor is It is added to the beginning polymerization phase or at the beginning and between To polymerize either