TH31959B - Preparation of polyoxymethylkylene, polyol, polyol and polyurethane foam. Flexible - Google Patents

Abstract

Preparation of polyoxymethylene, polyol and malleable polyurethane foam. Propylene Oxide Was added to the active hydrogen compound With catalist Alkali metal hydroxides in approximately from 0.05 to 0.5 mol per mole of the compound. Active hydrogen At a reaction temperature from 60 to 98 ํ at a reaction pressure. Less than or equal to 4 kg / cm2 for the preparation of a polyoxide-alkylene polyol with a hydroxyl value of 10 to 35 mg KOH / g, the less monol content. Or equal to 15% mol, HT bond selectivite greater than or equal to 96% and low viscosity polyol polymers were prepared by Polymerize zinc Nonomers, unsaturated, ethylene, in polyoxymalkylene polyol, the softened polyurethane foam was prepared by reactivity. Plioxylkylene, pylol, or polymer Polyols with organic polyisocyanates With a foaming agent, catalyst, serfactant, cross-linking agent And other fillers too. The resulting polyurethane foam has little closed cells. They have various properties, moisture-curing strength and flexibility to impact.

Claims (8)

1. The process for the preparation of polyoxymalkylene polyol with the least amount of oxypropylene group. 70% by weight Which consists of adding propylene oxide to the compound Active hydrogen And conducting agglomerate polymerization With catalyst hydroxide of Alkali metals are also present, which are at least the purity. 90% by weight And there are at least One compound selected from a group containing cesium hydroxide. And rubidium hydroxide in amounts from 0.05 to 0.5 mol per mole of the active hydrogen compound at 60 to 98 ํ and at the reaction pressure less than or equal to 490 kPa (4 kg / cm2). .2) 2. Process according to claim 1, where active hydrogen compounds are from 2 to 8 hydroxyl groups 3. Process according to claim 1, where the catalyst hydroxide Of alkali metals is cesium hydroxide or rubidium hydroxide 4. Polyoxymethylkylene polyol with a hydroxyl value of 10 to 35 mg. KOH / g, mole content 15% less than or equal to mole polyoxymalkylene polyol, head bond selection. To the tail, at least 96% and the content of oxypropylene group at least 70% wt. Resulting from polypropylene oxide composite polymerization. 5. The process for the preparation of flexible polyurethane foam consists of: The reaction of a polyisocyanate compound with a polyoxymalkylene polyol with a hydroxyl value of 10 to 35 mg KOH / g, the monol content is less than or equal to 15. % Mole versus polyoxymalkylene polyon, selection of at least 96% head-to-tail bond and at least 70% oxypropylene group content by weight. As a result of the combined polymerization of propylene oxide By Mikatalist, Surfactant, foaming agent and crosslinking agent 6. Process according to claim 5, where the polyoxymethylchylene polyol is replaced. Polyol polymers resulting from the polymerization of an ethylene unsaturated monomer in a polyoxi-alkylene polyol, which is Matrix 7. Process according to claim 5, where the foaming agent is water 8. The process for preparing a flexible polyurethane foam consisting of the addition of propylene oxide to the compound. Active hydrogen And conducting aggregated polymerization with The alkali hydroxide catalyst is also present, which is at least the purity. 90% by weight And at least one compound was chosen from the group containing cesium hydroxide. And rubidium hydroxide in amounts from 0.05 to 0.5 mol per mole of hydrogen compounds that It was activated at temperatures 60 to 98 ํ and at reaction pressures less than or equal to 490 kPa (4 kg / cm2) to obtain a polyoxymethylkylene polyol. Sea alkylene polyol contains oxy group. At least 70% polypropylene by weight. And reacting polyoxymethylkylene polyol with compounds Polyisocyanate with catalyst, serfantant, foaming agent 9. Process according to claim 8, where active hydrogen compounds are from 2 to 8 hydroxyl groups 1 0. Process according to claim 8, where the hydroxyl catalytic The alkali metal site is cesium hydroxide or rubidium hydroxide 1 1. Polyol polymers which contain alkylated polymers that Hydroxyl value from 10 to 35 mg KOH / g, the monol content is less than or equal to 15% mol. Compared with the alkyl-alkylenol polyol and selective, head-to-tail bond greater than or equal to 96% and oxypro group content At least Pili 70% by weight This is a result of the combined polymerization of propylene oxide and polymer particles, which are dispersed in the polyoxymalkyleneol in Range from greater than or equal to 5% by weight to less than 30% by weight 1 2. Process for the preparation of polyol polymers consisting of an alkylene-polyol polyol with Hydroxyl value from 10 to 35 mg KOH / g, mole content less than or equal to 15% mole compared to polyoxymalchylene polyol, head bond selection. To the tail greater than or equal to 96% as a result of the combined polymerization of propylene oxide and polymer particles which are Dispersed in polyoxymalkylene polyol in the range from greater than or equal to 5% by weight to less than 30% by weight. It consists of an ethylene unsaturated monomer zinc polymers in a polyoxyalkylene polyol with a hydroxyl value from 10 to 35 mg. . KOH / g, mole content less than or equal to 15% mole compared to polyoxymalkylene polyol, head-to-tail bond selection greater than or equal to 96% and oxypo group content. Propylene At least 70% by weight 1 3. Process according to claim 12, where the polyoxymethylkylene polyol is obtained by processing The combined polymerization of alkylene oxide and active hydrogen compounds containing 2 to 8 hydroxyl groups, with alkali metal catalysts, is also present. At the very least 90% by weight And at least one compound was chosen from the group containing cesium hydroxide. And rubidium hydroxide 1 4. Process according to claim 13, where at least alkylene oxide contains Two species were selected from the group containing ethylene oxide, propylene oxide. And butylene oxide 1 5. Process according to claim 13, where the propylene oxide content is at least 70% by weight compared to the total weight of the alkylene oxide. And a polyoxymethylene polyol containing at least 5% by weight of the oxyethylene group at the end 1 6. Process according to claim 12, where the monomer was The polyurethane unsaturated foam is acrylo-nitrile or a mixture of acrylonitrile and styrene. 1 7. Process for preparing polyurethane foam. Softening which consists of doing Reaction to organic polyisocyanate compounds with polyols, which contain a polyol polymer, which Contains a hydroxyl alkyl Polyol with a hydroxyl value from 10 to 35 mg KOH / g, dosage. 15% mole less than or equal to polyoxyalkylene polyol, head bond selection. To the tail greater than or equal to 96% and the content of oxypropylene group at least 70% by weight as a result of the additional polymerization of propylene oxide. And polymer particles which were Dispersed in polyoxymalkylene polyol in the range from greater than or equal to 5% by weight to at least 30% by weight. With catalist, surprise, and foaming agent 1 8. Polymers Polyol, composed of polyoxymalcyene, polyol with a hydroxyl value of 10 to 35 mg KOH / G, the amount of monol less than or equal to 15% mole compared to the polyoxymalkylene polyol, oxypropylene group content At least 70% by weight, selectivity to bond head to The tail is greater than or equal to 96% resulting from the combined polymerization of the propylene oxide and polymer particles dispersed in the polyoxide. Alkylene polyol in the range from greater than or equal to 30% by weight. To less than or equal to 60% by weight The glass transition temperature is from 90 to 120 ํ. 9. Process for the preparation of polyol polymers consisting of precious alkylene-polyol polymers. Hydroxyl from 10 to 35 mg KOH / g, primalamonol less than or equal to 15% mole compared to polyoxymalkylene polyol, selective bonding to head to The tail is greater than or equal to 96%, and the content of oxypropylene group The least 70% by weight As a result of the additional polymerization of propylene oxide. And polymer particles which are dispersed in polyoxymethylkylene. Polyols in the range from greater than or equal to 30% by weight to Less than or equal to 60% by weight and has a glass transition temperature of 90 to 120 ํ containing a non-polymerization zinc monomer. Ethylene-saturated with a chain carrier in a polyoxymalkylene polyol 2 0. Process according to claim 19, where the polyoxymethylkylene polyol. Leol was acquired by doing Additional polymerization of alkylene oxide with active hydrogen compounds containing 2 to 8 hydroxyl groups, with alkali metal catalysts present, are purity. At least 90% by weight And there is at least one compound selected from the group containing cesium hydroxide. And rubidium hydroxide 2 1. Process according to claim 20, where alkylene oxide is at least composed of Two compounds were selected from the group containing ethylene oxide, propylene oxide and butylene oxide 2. 2. Process according to claim 20, where the propylene oxide content is at least 70% by weight compared to the total weight of alkylene oxide. And a polyoxymethylene polyol containing at least 5% by weight of the oxyethylene group at the end 2 3. Process according to claim 20, where ethylene unsaturated monomer is acryllo-nitrile or mixture of acrylonitrile and styrene. 2 4.Process according to claim 20, where the chain movers is amine compound 2. 5. Process according to claim 24, where amine compounds are the general formula (1) (formula) (1), where R1, R2 and R3 are selected from the groups containing hydrogen atoms, alkyl groups with 1 to 10 carbon atoms and hydroxyl alkyl groups with 2 to 10 carbon atoms, which may be the same or different from one another. But not all hydrogen Or the general formula (2) (formula) (2), where X is an oxygen atom or NR2 group, R1 is an alkyl group with 1 to 10 carbon atoms or a hydroxy alkyl group with atoms. Carbon 2 to atoms and R2 are hydrogen atoms, alkyl group with 1 to 10 carbon atoms or hydroxy alkyl group with 2 to 10 carbon atoms 2. 6.Process according to claim 24, where the amine compound is triethylamine 2. 7. Process according to claim 24, where the amine compound is N-methyl morpholine 2. 8.The process for the preparation of flexible polyurethane foam consists of: Reaction of polyisocyanate intey compounds with polyols containing polymers al Contains a polyoxymalkylene polyol with a hydroxyl value of 10 to 35 mg KOH / g, 15% less or equal to monol content compared to polyoxymers. Alkaline polyol, selective bonding head To spread greater than or equal to 96% and the amount of oxypropylene group The least 70% wt as a result of polypropylene oxide composite polymerization. And polymer particles which were Dispersed in polyoxymalkylene polyols in the range from greater than or equal to 30% by weight to less than or equal to 60% by weight It has a glass transition temperature from 90 to 120 ํ with a foaming agent, a catalyst, a serfactant, and a cross link.