TH54241B - Siloxane polymerization in wall panels - Google Patents

Abstract

DC60 xyloxane polymerization was modified using gypsum based slurry including plaster, Class C fly ash, magnesium oxide. And siloxane and water emulsions. This slurry is used in How to make gypsum products that are water resistant That includes siloxane and water emulsion, later combining this slurry with Dry mixes of plaster, magnesium oxide And this Class C. Slurry fly ash was later molded as needed, and the plaster was left and the siloxane polymerization. Products obtained It is useful for making water resistant gypsum panels with a core that includes a matrix that A combination of calcium sulfate dihydrate crystals and silicone resins, where the combined matrix is Spread over it with catalys containing magnesium oxide and fly ash components, Class C. Xyloxane polymerization was improved using gypsum based slurry. Including plaster, Class C fly ash, magnesium oxide And the emulsion of siloxanes and water. This slurry was used in How to make gypsum products that are water resistant That includes siloxane and water emulsion, later combining this slurry with Dry mixes of plaster, magnesium oxide And this Class C. Slurry fly ash was later molded to demand, and the plaster was left and the siloxane polymerization. Products obtained It is useful for making water resistant gypsum panels with a core that includes a matrix that A combination of calcium sulfate dihydrate crystals and silicone resins, where the combined matrix is Spread over them with catalys containing magnesium oxide and components from Class C. fly ash.

Claims (9)

Disclaimer (all) which will not appear on the advertisement page: EDIT 07/09/2016 1. Slurry containing: plaster; Fly ash Class C; Magnesium oxide; And the emulsion of siloxanes and water. 2. Slurry of claim 1, where the fraction of said fly ash to said magnesium oxide is from approximately 2: 1 to approximately 3: 1. 3. Slurry of claim 2, where the ashes Such flotations are present in the slurry in amounts between 0.1% to approximately 5% of dry plaster weight. 4. Slurry of claim 1, where fly ash exists in quantities from approximately 0.1% to approximately 5% compared to the dry plaster weight. 5. Slurry of claim 1, where such magnesium oxide is available in amounts between 0.1% to approximately 0.5% of dry plaster weight. 6. Slurry of claim 1, where magnesium oxide is said to be Was heavily cremated or that was fully cremated 7. Slurry of claim 1, where the emulsion contains fluid, polysiloxane and water. 8. Slurry of claim 1 where the said siloxane is cyclic. Logane Fluid, Linear, Modified Hydrogen. 9. Slurry of claim 1 that consists of at least one type from that group. Contains talc, foaming agent, stabilizer, retarder, microbicide, dispersant, fiber or strengthening agent. 1 0. Slurry of claim 1 where the emulsion contains stable suspensions. 1 1. Slurry of claim 1 where the suspensions are free of emulsifiers. ------------------------------------------- 1. Slerry at Contains: plaster; Fly ash Class C; Magnesium oxide; And the emulsion of siloxanes and water. 2. Slurry of claim 1, where the fraction of said fly ash to said magnesium oxide is from approximately 2: 1 to approximately 3: 1. 3. Slurry of claim 2, where the ashes Such flotations are present in the slurry in amounts between 0.1% to approximately 5% of dry plaster weight. 4. Slurry of claim 1, where fly ash exists in quantities from approximately 0.1% to approximately 5% compared to the dry plaster weight. 5. Slurry of claim 1, where such magnesium oxide is available in amounts between 0.1% to approximately 0.5% of dry plaster weight. 6. Slurry of claim 1, where magnesium oxide is said to be Was heavily cremated or that was fully cremated 7. Slurry of claim 1, where the emulsion contains fluid, polysiloxane and water. 8. Slurry of claim 1 where the said siloxane is cyclic. Logane Fluid, Linear, Modified Hydrogen. 9. Slurry of claim 1 that consists of at least one type from that group. Contains talc, foaming agent, stabilizer, retarder, microbicide, dispersant, fiber or strengthening agent. 1 0. Slurry of claim 1 where the emulsion contains stable suspensions. 1 1. Slurry of claim 1, where such suspensions are free of emulsifiers. 1 2. Methods for making water-resistant gypsum products that include: Siloxane and water emulsion; A mixture of magnesium oxide and Class C fly ash with plaster; Combination of a siloxane emulsion with a plaster / catalyst mixture; Forming a slurry; Letting the slurry gypsum settle, forming the core of the wallboard; And siloxane polymerization. 1 3. Method of claim 12 where the aforementioned procedures consist of mixing siloxanes. And water in a high shear mixer. 1 4. Method of claim 12 where the forming process consists of joining slurry. Between two pieces of material facing each other It formed a wall panel. 1 5. Method of claim 12 where the aforementioned mixing procedure takes place before the said integration procedure. 1 6. Method of claim 11 that consists of taking part of the quantity passed through the meter. Then of the measured water for use as that water. 1 7. Water-resistant gypsum board with a core composed of a matrix blend of calcium crystals. Sulfates, dihydrates, and silicone resins, such a combined matrix spread over it with a catalyst that Contains magnesium oxide and components from Class C. 1 fly ash. 8. Panel of claim 17 that follows at least one type from that group. Contains talc, foaming agent, stabilizer, retarder, microbicide, dispersant, fiber or strengthening agent. That are distributed across these interwoven matrix. 1 9. Panel of claim 17 where the axes are sandwiched between two pieces of material facing each other.