Process for the production of moldings from nanoporous polymer materials, comprising the stages of a) preparation of a multiphase polymer mixture with domains in the range from 5 to 200 nm,b) impregnation of the polymer mixture with a blowing agent, where the solubility of the blowing agent in the p
Process for the production of moldings from nanoporous polymer materials, comprising the stages of a) preparation of a multiphase polymer mixture with domains in the range from 5 to 200 nm,b) impregnation of the polymer mixture with a blowing agent, where the solubility of the blowing agent in the phase forming the domains is at least twice as high as in the adjacent phases,c) expansion of the multiphase polymer mixture comprising blowing agent, by introducing the polymer mixture into a cavity and expanding it therein, thus obtaining the molding.
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1. A process for the production of moldings from nanoporous polymer materials, comprising the stages of a) preparation of a multiphase polymer mixture with domains in the range from 5 to 200 nm,b) impregnation of the polymer mixture with a blowing agent, where the solubility of the blowing agent in
1. A process for the production of moldings from nanoporous polymer materials, comprising the stages of a) preparation of a multiphase polymer mixture with domains in the range from 5 to 200 nm,b) impregnation of the polymer mixture with a blowing agent, where the solubility of the blowing agent in the phase forming the domains is at least twice as high as in the adjacent phases,c) expansion of the multiphase polymer mixture comprising blowing agent, by introducing the polymer mixture into a cavity and expanding it therein, thus obtaining the molding; wherein the average pore diameter of the nanoporous polymer material is from 100 to 8000 nm and the density of the nanoporous polymer material is from 300 to 1000 g/l. 2. The process according to claim 1, wherein the polymer mixture is introduced in flowable form into the cavity. 3. The process according to claim 2, where the cavity is an injection mold. 4. The process according to claims 2, wherein at least stages b) and c) take place in an injection-molding machine. 5. The process according to claims 2, wherein, prior to introduction of the polymer mixture, the cavity is subjected to a pressure of at least 1.1 bar, and the expansion of the polymer mixture takes place via controlled reduction of this pressure. 6. The process according to claim 1, wherein the cavity is an injection mold. 7. The process according to claims 6, wherein at least stages b) and c) take place in an injection-molding machine. 8. The process according to claims 6, wherein, prior to introduction of the polymer mixture, the cavity is subjected to a pressure of at least 1.1 bar, and the expansion of the polymer mixture takes place via controlled reduction of this pressure. 9. The process according to claim 1, wherein at least stages b) and c) take place in an injection-molding machine. 10. The process according to claims 9, wherein, prior to introduction of the polymer mixture, the cavity is subjected to a pressure of at least 1.1 bar, and the expansion of the polymer mixture takes place via controlled reduction of this pressure. 11. The process according to claim 1, wherein, prior to introduction of the polymer mixture, the cavity is subjected to a pressure of at least 1.1 bar, and the expansion of the polymer mixture takes place via controlled reduction of this pressure. 12. The process according to claim 1, wherein the phase forming domains consists essentially of core-shell particles obtainable via emulsion polymerization. 13. The process according to claim 12, wherein the particles are core-shell particles with a core composed of a polyacrylate or polymethacrylate. 14. The process according to claim 12, wherein the particles are core-shell particles with at least one shell composed of polystyrene or styrene-acrylonitrile copolymer. 15. The process according to claim 1 wherein the phase forming the domains is in essence composed of block copolymers having incompatible blocks. 16. The process according to claim 1, wherein the polymer mixture comprises from 20 to 99.99% by weight of a styrene polymer. 17. The process according to claim 1, wherein the blowing agent has been selected from hydrocarbons, water, alcohols, ketones, ethers, alkyl esters and alkylamides. 18. The process according to claim 1, wherein a co-blowing agent is used concomitantly and has been selected from carbon dioxide, nitrogen, fluorocarbons and noble gases.
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이 특허에 인용된 특허 (5)
Burnell Ann M. (Schenectady NY), Blowing agent concentrate and compositions and article prepared therefrom.
Costeux, Stephane; Zhu, Lingbo; Jeon, Hyun; Bunker, Shana P.; Kalantar, Thomas H., Nanoporous polymeric foam having high cell density without nanofiller.
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