TH3343B - Absorbent material - Google Patents

Abstract

The polymers, in the form of insoluble particles, can swell in water. Which consists of carboxyl group or carboxylate group This polymer has an ergonomic adsorption of 40 to 90 grams per gram of saline. It has an ergonomically absorbency rate of at least 8 ml of saline per 0.3 g of polymers and the gel strength when inflated to saturation with ion exchange water is 33 to 200 g / cm raised. 2 This polymer is useful as a sorbent in health-related topics.

Claims (5)

1. Process for preparing insoluble polymers in water. It consists of the diffusion stage (1) an aqueous solution of the polyunsaturated monomer derived from ethylene. Water soluble containing carboxyl groups or carboxylates in that molecule in (2) a hydrophobic organic liquid diffusion medium to form a water-in-oil suspension. Which the suspension also contains Anti-colloidal agent selected from a group containing cellulose ester and cellulose ether. Which substances prevent the formation of colloids It will not dissolve or partially dissolve in the medium causing that dispersion at room temperature. The monomer is then polymerized in the polymerization state in a water-in-oil suspension with a polymerization agent, a water-soluble radical at the polymerization temperature. High temperature Which substances prevent the occurrence The colloids dissolve in the medium of the suspension at such high polymerization temperatures. Which causes particles of hydrophobic polymers hanging Floats in a medium of such a liquid suspension. The water is then removed from the suspension until the hydrophilic polymer has a water content of 10 to 40% by weight. The suspension is then mixed in the hydrophilic polymers with a water content of 10% to 40% by weight containing crosslinked compounds. Containing at least two functional groups that are agile with the carboxyl and carboxyl groups The silates are effective in crosslinking polymers and thus the cross-linking density of the polymer particles is higher than the internal polymer particles. and Then eliminating the suspended media to obtain the said polymer particles. 2. Process for preparing insoluble polymers consisting of a suspension phase (1) an aqueous solution of unsaturated monomers containing dissolved ethylene groups with a Marboxylates in molecules Such aqueous solutions do not contain crosslinking agents in (2) aqueous suspension media, hydrocarbons or halogenated aerobic hydrocarbons. Therefore, the ratio of the suspended medium to the aqueous solution will be from 1/1 to 5/1, which will form a water-in-oil suspension. The suspension also contained an anti-colloidal agent from 0.05 to 10% wt. Compared to the suspended medium. The anti-colloidal agent was selected from a group containing cellulose ester. And cellulose ether, which the anti-colloidal agent does not dissolve or slightly dissolve in the medium of the suspension at room temperature. And then polymerize Such monomers in the state of polymerization, water-in-oil suspensions With a substance that causes a polymerisation that is water soluble At the polymerization temperature from 50 C up to boiling point Of the intermediate of the suspension.The anti-colloidal agent dissolves in the medium causing the suspension Float at high temperature polymerization; Which will be born in the region Of the hydrophobic polymers suspended in the medium resulting in such a liquid suspension. The particles are at least 100 micrometers in size, and water is removed from the suspended solids. Until the hydrophobic polymers have a water content of 10 to 40 percent by weight. The suspension was then mixed in a hydrophilic polymer with a water content of 10 to 40 percent by weight. Containing 0.01 to 5% crosslinked substances by weight by comparison of the polymers Crosslinked substances consist of at least two functional groups that are carboxyl-sensitive. And carboxylate In a state of effective crosslinking polymers. This causes the crosslinking density on the surface of the polymer particles to be higher than the internal polymer particles. And then eliminating the intermediate causing the suspension Will receive such polymer particles 3. Process according to claim No. 2, which the elimination process thereof Which removes water from the suspension until the oily polymer contains 15 to 35% water. 4. Process according to claim 2, which the monomer is Acrylic acid Acrylic salt Acid, methachrolic acid, or methachrolic acid salt 5. Process according to claim 2, in which the aforementioned monomer contains sodium acrylate.