IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
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출원번호 |
UP-0608107
(2006-12-07)
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등록번호 |
US-7845130
(2011-01-31)
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발명자
/ 주소 |
- Tonyan, Timothy D.
- Reicherts, James E.
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출원인 / 주소 |
- United States Gypsum Company
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
10 인용 특허 :
54 |
초록
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This invention relates to a structural cementitious panel (SCP) panel able to resist lateral forces imposed by high wind and earthquake loads in regions where they are required by building codes. These panels may be used for shear walls, flooring or roofing or other locations where shear panels are
This invention relates to a structural cementitious panel (SCP) panel able to resist lateral forces imposed by high wind and earthquake loads in regions where they are required by building codes. These panels may be used for shear walls, flooring or roofing or other locations where shear panels are used in residential or commercial construction. The panels employ one or more layers of a continuous phase resulting from the curing of an aqueous mixture of inorganic binder reinforced with glass fibers and containing lightweight filler particles. One or more reinforcement members, such as mesh or plate sheets, are bonded to at least one surface of the panel to provide a completed panel that can breathe and has weather resistant characteristics to be capable of sustaining exposure to the elements during construction, without damage.
대표청구항
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What is claimed is: 1. A shear panel system, for resisting shear loads when fastened to metal framing, comprising: a shear panel consisting of a panel-shaped continuous phase and first and second reinforcing members attached to the continuous phase; the shear panel-shaped continuous phase resulting
What is claimed is: 1. A shear panel system, for resisting shear loads when fastened to metal framing, comprising: a shear panel consisting of a panel-shaped continuous phase and first and second reinforcing members attached to the continuous phase; the shear panel-shaped continuous phase resulting from the curing of an aqueous mixture consisting essentially of water and, on a dry basis, 49 to 68 weight % a blend of reactive powders, 23 to 43 weight % uniformly distributed lightweight filler particles comprising uniformly distributed ceramic microspheres, and 5 to 20 weight % alkali-resistant glass fibers, wherein the glass fibers are monofilaments having a diameter of about 5 to 25 microns (micrometers) and a length of about 0.25 to 3 inches, and optional superplasticizer, the continuous phase being uniformly reinforced with the alkali-resistant glass fibers; the lightweight filler particles having a particle specific gravity of from 0.02 to 1.00 and an average particle size of about 10 to 500 microns (micrometers); wherein the blend of reactive powders comprises: 45 to 75 wt % calcium sulfate alpha hemihydrate, 20 to 40 wt % Portland cement, 0.2 to 3.5 wt % lime, and 5 to 25 wt % of an active pozzolan comprising silica fume; and the panel-shaped continuous phase having opposed first and second outer surfaces, first and second reinforcing members selected from the group consisting of plate and a mesh sheet attached to only the first outer surface of the continuous phase panel, the first reinforcing member and the second reinforcing member each respectively attached to the first surface along the entire length of two opposed edges of the panel covering the portion of the first surface opposite the second surface at the point(s) where the panel is attached to the metal frame with screws with winged drillers, wherein the second surface of the panel opposed to the first surface has no reinforcing members; wherein the reinforcing members cover 5 to 90% of the first surface of the panel-shaped continuous phase, and metal framing; the shear panel is fastened to the metal framing with screws with winged drillers to form a first shear diaphragm, wherein the winged driller is located above the point and below the first thread of the screw and protrudes laterally from a shaft of the screw, wherein the shear panel fastened to the metal frame has a racking shear strength between 1.1 and 3.0 times the racking shear strength of a similar structural cement panel without reinforcing that is fastened to the same wall framing with the same screws, and a layer of Type X fire rated gypsum wallboard attached to a side of the metal framing opposed to said shear panel to form a second diaphragm, wherein the Type X fire rated gypsum wallboard is only on the one side of the frame opposed to the first shear diaphragm, wherein the panel has a thickness of about ½ to 1½ inches (6.3 to 38.11 mm), and wherein the shear panel system fastened to the metal frame meets the performance of the 2 hour fire resistance test rating under ASTM E-119, effective 2003. 2. The shear panel system of claim 1 wherein the reinforcing member comprises material selected from the group consisting of steel, aluminum, wood and plastic. 3. The shear panel system of claim 1 wherein the reinforcing member comprises rectangular strips placed in depressions on the outer surface of the continuous phase. 4. The shear panel system of claim 1, wherein the at least one reinforcing member comprises rectangular strips placed in depressions on the outer surface of the continuous phase such that an upper surface of the each respective rectangular strips is substantially flush with a same upper surface of the outer surface of the continuous phase. 5. The shear panel system of claim 1, wherein the at least one reinforcing member comprises separate reinforcing corner pieces and optional reinforcing strips attached the continuous phase of the panel. 6. The shear panel system of claim 1, wherein the at least one reinforcing member comprises a central reinforcing strip and separate reinforcing corner pieces, optionally, the panel is further provided with two reinforcing strips which contact the corner pieces. 7. The shear panel system of claim 1, wherein the at least one reinforcing member comprises a one piece reinforced border having an outer perimeter at or adjacent a perimeter of one of the surfaces of the continuous phase of the panel and an inner perimeter. 8. The shear panel system of claim 1, wherein the at least one reinforcing member comprises a reinforcing border having an outer perimeter at or adjacent a perimeter of one of the surfaces of the continuous phase of the panel and an inner perimeter, wherein the reinforcing border comprises a multi-piece reinforcing border on one of the surfaces of the continuous phase, the reinforcing border comprising corner pieces, longitudinal side pieces and transverse side pieces. 9. The shear panel system of claim 1, wherein the at least one reinforcing member comprises a panel, having perforations, attached to the continuous phase. 10. The shear panel system of claim 1, wherein the ceramic microspheres have a mean particle size from 50 to 250 microns and/or fall within a particle size range of 10 to 500 microns, the ceramic microspheres having a particle density of 0.50 to 0.80 g/mL. 11. The shear panel system of claim 1, wherein the aqueous mixture consists of, on a dry basis, 58 to 68 wt. % reactive powders, 6 to 17 wt. % glass fibers, and 23 to 34 wt. % lightweight filler particles, and optional superplasticizer, wherein said lightweight filler consists of ceramic microspheres and up to 1.0 wt. % filler particles selected from the group consisting of, glass microspheres, fly ash cenospheres or perlite, each on a dry basis, and wherein the reactive powders consist of, each on a dry basis, 65 to 75 wt % calcium sulfate alpha hemihydrate, 20 to 25 wt % Portland cement, 0.75 to 1.25 wt % lime, and 10 to 15 wt % of silica fume active pozzolan. 12. The shear panel system of claim 11, wherein the aqueous mixture contains, on a dry basis 7 to 12 wt. % of the glass fibers. 13. The shear panel system of claim 1, wherein the filler also contains uniformly distributed glass microspheres and/or fly ash cenospheres having an average diameter of about 10 to 350 microns (micrometers). 14. The shear panel system of claim 1, wherein the aqueous mixture, consists essentially of water, optional superplasticizer, and, on a dry basis: 54 to 68 wt. % of the reactive powders, 5 to 15 wt. % of the glass fibers, 23 to 33.8 wt. % of ceramic microspheres, and up to 1.0 wt. % of the glass microspheres, the ceramic microspheres having a particle density of 0.50 to 0.80 g/mL, and optional superplasticizer. 15. The shear panel system of claim 1, wherein the at least one reinforcing member covers about 20 to 50% of the first surface of the continuous phase panel. 16. A non-combustible system for construction comprising: a shear diaphragm supported on a metal frame, the shear diaphragm comprising a shear panel for resisting shear loads when fastened to framing, the shear panel consisting of a panel-shaped continuous phase and first and second reinforcing members; the shear panel shaped continuous phase resulting from the curing of an aqueous mixture consisting essentially of, on a dry basis, 49 to 68 weight % reactive powder, 23 to 43 weight % lightweight filler particles comprising uniformly distributed ceramic microspheres, and 5 to 20 weight % alkali-resistant glass fibers, wherein the glass fibers are monofilaments having a diameter of about 5 to 25 microns (micrometers) and a length of about 0.25 to 3 inches (6.3 to 76 mm), and optional superplasticizer, the continuous phase being uniformly reinforced with the glass fibers; the lightweight filler particles having a particle specific gravity of from 0.02 to 1.00 and an average particle size of about 10 to 500 microns (micrometers); wherein the reactive powders comprise 45 to 75 wt % calcium sulfate alpha hemihydrate, 20 to 40 wt % Portland cement, 0.2 to 3.5 wt % lime, and 5 to 25 wt % of an active pozzolan comprising silica fume; and the panel-shaped continuous phase having opposed first and second outer surfaces, first and second reinforcing members selected from the group consisting of plate and a mesh sheet attached to only the first outer surface of the continuous phase panel, the first reinforcing member and the second reinforcing member each respectively attached to the first surface along the entire length of two opposed edges of the panel, wherein the reinforcing member(s) cover the portion of the first surface opposite the second surface at the point(s) where the panel is attached to the metal frame with screws with winged drillers, wherein the second surface of the panel opposed to the first surface has no reinforcing members; wherein the reinforcing members cover 5 to 90% of the first surface of the continuous phase panel, the frame comprising metal framing members, wherein the shear panel has a thickness of ¾ inch and has a racking strength ultimate load measured according to ASTM E72 racking from about 4600 to about 6000 lbs for an 8 foot by 8 foot wall assembly, and wherein the panel is fastened to the metal framing with screws with winged drillers, wherein the winged driller is located above the point and below the first threads of the screw and protrudes laterally from a shaft of the screw, a layer of Type X fire rated gypsum wallboard attached to a side of the frame opposed to said shear diaphragm to form a second diaphragm, wherein the Type X fire rated gypsum wallboard is only on the one side of the frame opposed to the shear panel; and wherein the system meets the performance of the 2 hour fire resistance test rating under ASTM E-119, effective 2003. 17. The system of claim 16, wherein the reactive powders consist of, on a dry basis, 65 to 75 wt. % calcium sulfate hemihydrate, 20 to 25 wt. % Portland cement, 0.75 to 1.25 wt. % lime, and 10 to 15 wt. % of silica fume active pozzolan. 18. The system of claim 16, wherein the aqueous mixture consists of water and optional superplasticizer, and, on a dry basis: 58 to 68 wt. % reactive powders, 7 to 12 wt. % glass fibers, and 23 to 34 wt. % lightweight filler particles, wherein said lightweight filler consists of ceramic microspheres and up to 1.0 wt. % filler particles selected from the group consisting of, glass microspheres, fly ash cenospheres or perlite, each on a dry basis, and wherein the reactive powders consist of, each on a dry basis, 65 to 75 wt % calcium sulfate alpha hemihydrate, 20 to 25 wt % Portland cement, 0.75 to 1.25 wt % lime, and 10 to 15 wt % of silica fume active pozzolan. 19. The system of claim 16, wherein the aqueous mixture consists of, on a dry basis, 54 to 68 wt. % reactive powders, 5 to 15 wt. % glass fibers, and 23 to 33.8 wt. % ceramic microspheres, and up to 1.0 wt. % of the glass microspheres, the ceramic microspheres having a particle density of 0.50 to 0.80 g/mL, and optional superplasticizer. 20. The system of claim 16, wherein the at least one reinforcing member covers about 20 to 50% of the first surface of the continuous phase panel. 21. A method of providing a 2 hour fire resistance test rating under ASTM E-119, effective 2003 to a building structure comprising: assembling the non-combustible system of claim 16 for construction comprising: a first shear diaphragm for the building structure supported on a metal frame, the shear diaphragm comprising a shear panel for resisting shear loads when fastened to the metal frame, said assembling consisting of: fastening to the metal frame the shear panel consisting of a panel-shaped continuous phase and first and second metal reinforcements attached to the continuous phase; the panel-shaped continuous phase resulting from the curing of an aqueous mixture comprising, on a dry basis, 49 to 68 weight % of a blend of reactive powder, 23 to 43 weight % lightweight filler particles consisting of uniformly distributed ceramic microspheres, 5 to 20 weight % alkali-resistant glass fibers, wherein the glass fibers are monofilaments having a diameter of about 5 to 25 microns (micrometers) and a length of about 0.25 to 3 inches (6.3 to 76 mm), and optional superplasticizer, the continuous phase being uniformly reinforced with the glass fibers, the lightweight filler particles having a particle specific gravity of from 0.02 to 1.00 and an average particle size of about 10 to 500 microns (micrometers); wherein the blend of reactive powders comprises: 45 to 75 wt % calcium sulfate alpha hemihydrate, 20 to 40 wt % Portland cement, 0.2 to 3.5 wt % lime, and 5 to 25 wt % of an active pozzolan comprising silica fume; and the panel-shaped continuous phase panel having opposed first and second outer surfaces; wherein the first and second reinforcing members selected from the group consisting of plate and a mesh sheet are attached to only a first surface of the continuous phase panel, the first reinforcing member and the second reinforcing member each respectively attached to the first surface along the entire length of two opposed edges of the panel, wherein the second surface of the panel opposed to the first surface has no reinforcing members; wherein the reinforcing member(s) cover the portion of the first surface opposite the second surface which is attached to the metal frame with screws with winged drillers screwed through the reinforcing member on the first surface to the second surface which is attached to the metal frame wherein the reinforcing members cover 5 to 90% of the first surface of the continuous phase panel, the metal frame comprising metal framing members, wherein the panel has a thickness of ¾ inch and has a racking strength ultimate load measured according to ASTM E72 racking from about 4400 to 7400 lbs for an 8 foot by 8 foot wall assembly, and wherein the shear panel is fastened to the metal framing members with screws with winged drillers, wherein the winged driller is located above the point and below the first threads of the screw and protrudes laterally from a shaft of the screw, attaching a layer of Type X fire rated gypsum wallboard to a side of the metal frame opposed to said shear panel to form a second diaphragm, wherein the Type X fire rated gypsum wallboard is only on the one side of the metal frame opposed to the shear diaphragm, and wherein the building structure meets the performance of the 2 hour fire resistance test rating under ASTM E-119, effective 2003. 22. The method of claim 21, wherein the aqueous mixture consists of water and, on a dry basis, 58 to 68 wt. % reactive powders, 7 to 12 wt. % glass fibers, and 23 to 34 wt. % ceramic microspheres, up to 1.0 wt. % of glass microspheres, and optional superplasticizer, wherein said lightweight filler consists of ceramic microspheres and up to 1.0 wt. % filler particles selected from the group consisting of, glass microspheres, fly ash cenospheres or perlite, each on a dry basis, and wherein the reactive powders consist of: 65 to 75 wt. % calcium sulfate hemihydrate, 20 to 25 wt. % Portland cement, 0.75 to 1.25 wt. % lime, and 10 to 15 wt. % of a silica fume active pozzolan. 23. The method of claim 22, wherein the at least one reinforcing member covers about 20 to 50% of the first surface of the continuous phase panel, wherein the ceramic microspheres have a mean particle size from 50 to 250 microns and/or fall within a particle size range of 10 to 500 microns, wherein the racking strength ultimate load is in the range of from about 4600 to about 6000 lbs for an 8 foot by 8 foot wall assembly. 24. The method of claim 21, wherein the reactive powders consist of: 65 to 75 wt. % calcium sulfate hemihydrate, 20 to 25 wt. % Portland cement, 0.75 to 1.25 wt. % lime, and 10 to 15 wt. % of silica fume active pozzolan. 25. The method of claim 21, wherein the aqueous mixture, consists essentially of water, optional superplasticizer, and, on a dry basis: 54 to 68 wt. % of the reactive powders, 5 to 15 wt. % of the glass fibers, 23 to 33.8 wt. % of ceramic microspheres, and up to 1.0 wt. % of glass microspheres, wherein the at least one reinforcing member covers about 20 to 50% of the first surface of the continuous phase panel, wherein the ceramic microspheres have a mean particle size from 50 to 250 microns and/or fall within a particle size range of 10 to 500 microns, wherein the panel is fastened to the metal frame by winged self drilling screws, and wherein the racking strength ultimate load is in the range of from about 4600 to about 6000 lbs for an 8 foot by 8 foot wall assembly.
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