초록 ▼

The present invention refers to a high internal phase polyclectrolyte emulsions which are useful for the manufacture of superabsorbent polymers having two phases: i) a continuous oil phase and the ii) a dispersed aqueous phase containing the aqueous monomer solution prior to polymerization and the p

The present invention refers to a high internal phase polyclectrolyte emulsions which are useful for the manufacture of superabsorbent polymers having two phases: i) a continuous oil phase and the ii) a dispersed aqueous phase containing the aqueous monomer solution prior to polymerization and the polyelectrolyte in water-soluble, or water-swellable or very slightly crosslinked form after polymerization, wherein the polymerization occurs in the dispersed aqueous phase and wherein the dispersed aqueous phase contains a high concentration of polyclectrolyte. The present invention also refers to a process for preparing such emulsions and for inverting these emulsions so as to form films or other patterns of the superabsorbent polymer. Absorbent structures containing SAP films or other patterns prepared by the present invention are also contemplated.

대표청구항 ▼

1. A process for preparing superabsorbent structures comprising:(a) preparing a high internal phase water-in oil emulsion comprising, in its aqueous dispersed phase, at least one hydrophilic monomer in aqueous solution and an initiator,(b) polymerizing the monomer in the aqueous dispersed phase to f

1. A process for preparing superabsorbent structures comprising:(a) preparing a high internal phase water-in oil emulsion comprising, in its aqueous dispersed phase, at least one hydrophilic monomer in aqueous solution and an initiator,(b) polymerizing the monomer in the aqueous dispersed phase to form a precursor polymer,(c) mixing the water-in-oil emulsion containing the precursor polymer with a post crosslinker and, optionally a plasticizing agent,(d) applying the emulsion resulting from step (c) onto a support material,(e) allowing or inducing coalescence of the aqueous phase under conditions sufficient to allow the emulsion to form a homogeneous polymer gel structure, and(f) drying and post crosslinking the formed gel material at a temperature sufficient to dry and cure the material, and(g) optionally, post-treating the material obtained in step (f) by post-heat treating the material, by surface modifying the material, by surface post-crosslinking the material, or by any combination of these post-treatments. 2. A process for preparing superabsorbent structures comprising:(a) preparing a high internal phase water-in oil emulsion containing, in its aqueous dispersed phase, a least one hydrophilic monomer in aqueous solution and a suitable initiator,(b) polymerizing the aqueous dispersed phase to form a precursor polymer,(c) mixing the water-in-oil emulsion containing the precursor polymer with a post-crosslinker, an inversion agent, and, optionally a plasticizing agent,(d) spreading or casting the emulsion resulting from step (c) on a support material into a film, shape or pattern,(e) allowing the spread or cast emulsion to invert from a water-in-oil emulsion into a oil-in-water emulsion for a time sufficient to allow the emulsion to invert and for the polymer material to form a homogeneous polymer gel structure, and(f) drying and post crosslinking the formed gel material at a temperature sufficient to dry and cure the material, and(g) optionally, post-treating the material obtained in step (f) by post-heat treating the material, by surface modifying the material, by surface post-crosslinking the material, or by any combination of these post-treatments. 3. A process according to claims 1 or 2 wherein the inversion of the emulsion can be accomplished by 1) solvent extraction, 2) evaporation of the organic phase, 3) application of surfactant(s) having a high hydrophilic lipophilic balance (HLB), 4) application of low critical solution temperature solvents, or 5) application of metal oxide powders. 4. A process according to claim 3 wherein the inversion of the emulsion is accomplished by solvent extraction. 5. A process according to claim 3 wherein the inversion of the emulsion is accomplished by evaporation of the organic phase. 6. A process according to claim 3 wherein the inversion of the emulsion is accomplished by the application of at least one surfactant having a high hydrophilic lipophilic balance (HLB). 7. A process according to claim 3 wherein the inversion of the emulsion is accomplished by the application of at least one low critical solution temperature (solvent. 8. A process according to claim 3 wherein the inversion of the emulsion is accomplished by the application of at least one metal oxide powder. 9. A process for preparing superabsorbent structures comprising:(a) preparing a high internal phase water-in oil emulsion comprising in its aqueous dispersed phase, a partially neutralized-polyacrylic acid monomer in aqueous solution and a suitable initiator,(b) polymerizing the aqueous dispersed phase to form a precursor polymer having a particle size of from about 0.1 to 100 microns,(c) mixing the water-in-oil emulsion containing the precursor polymer with a post-crosslinker, an inversion agent, and, optionally a plasticizing agent,(d) spreading or casting the emulsion resulting from step (c) on a support material into a film, shape or pattern,(e) allowing the spread or cast emulsion to invert from a water-in- oil emulsion into a oil-in-water emulsion for a time sufficient to allow the emulsion to invert and for the polymer material to form a homogeneous polymer gel structure, and(f) drying and post crosslinking the formed gel material at a temperature sufficient to dry and cure the material, and(g) optionally, post-treating the material obtained in step (f) by post-heat treating the material, by surface modifying the material, by surface post-crosslinking the material, or by any combination of these post-treatments. 10. The process of claim 9 wherein the particle size is from 1 to 30 microns.