Cushioning media including lubricated spherical objects
DCFirst Claim
1. A composite mixture comprising:
- a) a plurality of spherical objects andb) a quantity of lubricant on the exterior surface of substantially all of said spherical objects, said lubricant being present in a quantity less than would cause dispersion of said spherical objects in said lubricant sufficient such that said spherical objects would be significantly separated from each other by said lubricant;
wherein said spherical objects and said lubricant are mixed together to form the composite mixture;
wherein said lubricant is lubricous and serves to reduce the coefficient of friction between contacting spherical objects;
wherein said spherical objects within said mixture are movable in sliding and rolling contact with each other in all three dimensions to permit flow and shear of the mixture;
wherein the composite mixture flows and shears in response to a deforming pressure exerted on it, said flow and shear being accomplished by said spherical objects moving in rolling and sliding contact with each other; and
wherein the composite mixture ceases to flow and shear when the deforming pressure is terminated.
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Abstract
A composite mixture of spherical objects and lubricant useful for its cushioning properties is disclosed and claimed. The composite mixture may be composed of microspheres typically less than 2000 microns in diameter with inert atmospheres sealed within their interiors and any of a variety of lubricants facilitating sliding and rolling movement between microspheres. Typically the composite mixture includes lubricant in a quantity sufficient to substantially coat the exterior surface of essentially all of the spherical objects, but in a quantity less than would cause dispersion of the spherical objects in the lubricant sufficient to physically separate the spherical objects from each other and substantially reduce the sliding and rolling contact of the spherical objects with each other. Low specific gravity, low thermal mass, low coefficient of heat transfer, lack of head pressure, insulative and flotation qualities are provided by the invention. The composite mixture may be contained in fluid-tight confinement within a flexible bladder. The preferred bladder has a stretchable fabric laminated to an impermeable, stretchable film.
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Citations
13 Claims
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1. A composite mixture comprising:
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a) a plurality of spherical objects and b) a quantity of lubricant on the exterior surface of substantially all of said spherical objects, said lubricant being present in a quantity less than would cause dispersion of said spherical objects in said lubricant sufficient such that said spherical objects would be significantly separated from each other by said lubricant; wherein said spherical objects and said lubricant are mixed together to form the composite mixture; wherein said lubricant is lubricous and serves to reduce the coefficient of friction between contacting spherical objects; wherein said spherical objects within said mixture are movable in sliding and rolling contact with each other in all three dimensions to permit flow and shear of the mixture; wherein the composite mixture flows and shears in response to a deforming pressure exerted on it, said flow and shear being accomplished by said spherical objects moving in rolling and sliding contact with each other; and wherein the composite mixture ceases to flow and shear when the deforming pressure is terminated. - View Dependent Claims (2, 3, 4)
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5. A composite mixture comprising:
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a) a plurality of microspheres and b) a quantity of visco-elastic fluid on the exterior surface of substantially all of said microspheres, said visco-elastic fluid being present in a quantity less than would cause dispersion of said microspheres in said visco-elastic fluid sufficient such that said microspheres objects would be significantly separated from each other by said visco-elastic fluid; wherein said microspheres are movable in sliding and rolling contact with each other in all three dimensions to permit flow and shear of the mixture; and wherein the mixture flows, shears and deforms in response to a deforming pressure, but ceases to flow, shear and deform after the deforming pressure has been terminated. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A composite mixture comprising:
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spherical objects and a lubricant comprising coco diethanolamide; wherein said spherical objects and said lubricant are mixed together to form the composite mixture; wherein said lubricant is present on the exterior surface of substantially all of said spherical objects, but in a quantity less than would cause dispersion of said spherical objects in said lubricant sufficient to significantly physically separate said spherical objects from each other and thereby reduce the sliding and rolling contact of said spherical objects with each other; wherein said lubricant facilitates sliding and rolling contact of spherical objects with each other to permit flow and shear of the composite mixture; wherein said lubricant is lubricous, serves to reduce the coefficient of friction between contacting spherical objects, and does not prevent sliding and rolling of said spherical objects with respect to each other; and wherein the mixture flows, shears and deforms in response to a deforming pressure, but ceases to flow, shear and deform after the deforming pressure has been terminated.
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12. A composite mixture comprising:
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spherical objects comprising an outer shell and an inert atmosphere sealed within the outer shell, said spherical objects being less than 2000 microns in diameter, and lubricant comprising a principle molecule and a cross-linking agent; wherein said lubricant is lubricous, serves to reduce the coefficient of friction between contacting spherical objects, and does not prevent sliding and rolling of said spherical with respect to each other; wherein said lubricant is present on the exterior surface of essentially all of said spherical objects, but in a quantity less than would cause dispersion of said spherical objects in said lubricant sufficient to significantly physically separate said spherical objects from each other such that more than a thin film of lubricant is interposed between spherical objects and preventing the sliding and rolling contact of said spherical objects with each other; wherein said lubricant facilitates sliding and rolling contact of spherical objects with each other to permit flow and shear of the composite mixture; wherein said spherical objects are made from material selected from the group consisting of plastic, glass, metal, carbon, mineral, and quartz; and wherein the mixture flows, shears and deforms in response to a deforming pressure, but ceases to flow, shear and deform after the deforming pressure has been terminated.
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13. A composite mixture comprising:
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a) a plurality of spherical objects and b) a quantity of visco-elastic fluid on the exterior surface of substantially all of said spherical objects, said visco-elastic fluid being present in a quantity less than would cause dispersion of said spherical objects in said visco-elastic fluid sufficient such that said spherical objects would be separated from each other by more than a thin film of said visco-elastic fluid, and said visco-elastic comprising a principle molecule and a gelling agent; wherein said visco-elastic fluid comprises a mixture of molecules which are reversibly cross-linked, such that the linkages are easily sheared by a slow mechanical force, and such that new linkages may be reestablished among the molecules of the mixture following cessation of the mechanical force; wherein said lubricant facilitates sliding and rolling contact of spherical objects with each other to permit flow and shear of the composite mixture; wherein the composite mixture flows and shears in response to a deforming pressure exerted on it, said flow and shear being accomplished by said spherical objects moving in rolling and sliding contact with each other; and wherein the composite mixture ceases to flow and shear when the deforming pressure is terminated.
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Specification