TH19952B - The process of preparing the emulsion and latex obtained from the emulsion with the ratio of the interphase. - Google Patents

Abstract

The invention is a method for preparing emulsions with a high ratio of interphase without A phase inversion occurs, which consists of the following steps: a) the two phases gradually flow together until it reaches the device causing distribution It has a quantity of serfactants that are emulsified and stabilized. By giving the fluid continuous phase with a flow rate equal to R1 and the fluid displacement phase with a flow rate of R2 b) mixing the flowing liquid with sufficient shear force and R2: R1 is constant to form an emulsion with a high interphase ratio without phase inversion. Or distribution of the interphase into the step-by-step extraneous phase when R2: R1 is within the specified range. Where the minimum value of this range is the average particle size calculated from The volume of the emulsion with the high interphase ratio begins to correlate in the opposite direction to R2: R1, and the maximum value of this range is slightly lower than R2: R1, where R2: R1 is the value at This produces phase inversion of the emulsion with a high ratio of interphase. The invention can be used to prepare particles that are uniformly dispersed and sized. Particles below a micron These high end phase ratio emulsions can be used Prepared latex that can be useful:

Claims (3)

1. Method for preparing an emulsion with a high ratio of interphase without phase inversion. It consists of the following steps: a) provides the aqueous phase current with a flow rate of R1 and a displaced phase current that is Liquids with a flow rate equal to R2 continuously flow into the device. It is distributed and with the quantity of serfactants as an emulsifier and thus And b) mix the inrush current with sufficient mixing ratio to form a rate emulsion High interphase segment without phase inversion when R2: R1 is within the specified range. Where the minimum value of this range is determined by the point at which the average particle size is charged The volume of the emulsion with the high interphase ratio begins to correlate with R2: R1 and where the maximum value of this range is lower than R2: R1, where phase inversion occurs. Of ratio emulsions 2. The method of claim 1, where R2: R1 is within the range of the mean particle size calculated from the volume of the interphase is high and the displacement is composed of polyolefins. The average of the emulsion with the high interphase ratio was not more than approximately 1.9 microns. 3. Method of claim 1, when R2: R1 was in the range of the polyspercity. Not more than 3. 4. Method according to claim 1, which polyolefin consists of Ethylene copolymer A straight-chain alpha-olefin with a density of approximately 0.850 to 0.965 g / cm 3 Mw / Mn ranges from approximately 1.5 to approximately 3.0 with an index of melting from approximately 0.1 to approximately 100 g / 10. Min and I10 / I2 values from approx. 6 to approx. 20 5. Claim Method 4 When the ethylene / alpha-olefin copolymer is ethylene / 1-octane copolymer. A With a density of approximately 0.855 to approximately 0.875 and an index of Melting from approx. 0.5 to approx. 70 g / 10 min. 6. Clause 4 method when R2: R1 ranges from approx. 10: 1 to approx. 60: 1. 7. Claim Method 6 when R2: R1. : R1 ranges from approximately 20: 1 to approx. 55: 1 8. Method according to claim 4, which also includes a post-step (b), emulsifying. The method of emulson preparation with a high ratio of interphase was diluted with water to prepare latex synthesis. Without phase inversion Which consists of the following steps: a) gives a liquid continuous phase current with a flow rate of R1 and a current of The liquid displacement phase with a flow rate equal to R2 gradually flows together. Because it reaches the device, it is distributed and it has a serviceable quantity of servants. Emulsifier and stabilizer, and b) mix the current flowing with sufficient shear force. And the ratio of R2: R1 is constant enough To form an emulsion with a high ratio of interphase without Phase inversion, or distribution of the interphase, enters the step-by-step extraneous phase when R2: R1 is in the range at which the emulsion polydispersity. If the ratio of the interphase is not greater than 3 or the average particle size that is the mean is not more than approximately 1.9 microns 1 0. Method of claim No. 9 when the servant Contains the included servants. It is selected from a group containing anion, cation, and non-charged servant 1. 1. Method according to claim No. 9, when the average particle size is not greater than approximately 1.9 microns 1. 2. Method according to claim 11, when the average particle size is less than approximately 1.5 microns 1 3. Method according to claim 12, when the average particle size is less than approximately 1.0 microns.