Historicalarchived
6994048
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Claims
- I claim: 1. A floating barrier for small boats comprising: a plurality of flotation modules cast from a buoyant concrete mixture, said buoyant concrete mixture being non-water-absorbing, crushable, not susceptible to failure in shear and have a density lighter than water; and lines extending between said flotation modules to form a barrier, said lines freely passing thru said flotation modules. 2. The barrier of claim 1 further comprising: elongate channels in said flotation modules each receiving one of said lines extending therethrough, and resilient cushion structure between adjacent ones of said flotation modules. 3. The barrier of claim 2 further comprising: anchoring systems connected to said lines. 4. The barrier of claim 3 wherein said lines slip and give through said elongate channels upon impact of a flotation module by a boat, said buoyant concrete mixture crushes to absorb some energy of said impact and said lines and said anchoring systems also absorb some energy of said impact. 5. The barrier of claim 4 wherein said buoyant concrete mixture has a density of between 35 to 50 pounds per cubic foot. 6. The barrier of claim 5 wherein said buoyant concrete mixture includes cement, water, beaded forms of expanded polystyrene, and polypropylene fibers. 7. The barrier of claim 6 wherein said buoyant concrete mixture has 1004 pounds of said cement, 552 pounds of said water, and 7 pounds of said polypropylene fibers per volume of 49 cubic feet of said polystyrene beads. 8. The barrier of claim 6 wherein said buoyant concrete mixture has a mixture of cement to beads at a ratio of 1:3.5 by volume, water to cement ratio at 1:2 by weight and fiber to cement ratio at 1:141 by weight. 9. The barrier of claim 7 wherein said buoyant concrete mixture has a density of 43 pounds per cubic foot, and after curing, can sustain a compression crush stress of about 150 pounds per square inch. 10. A flotation module comprising: a buoyant concrete mixture being non-water-absorbing, crushable, not susceptible to failure in shear and of a density less than water, wherein said buoyant concrete mixture includes cement, water, beaded forms of expanded polystyrene, and polypropylene fibers; and elongate channels cast in said buoyant concrete mixture to receive lines therethrough. 11. The flotation module of claim 10 wherein said buoyant concrete mixture has 1004 pounds of said cement, 552 pounds of said water, and 7 pounds of said polypropylene fibers, per volume of 49 cubic feet of said polystyrene beads. 12. The flotation module of claim 11 wherein said buoyant concrete mixture has a density of approximately 43 pounds per cubic foot, and after curing, can sustain a compression crush stress of about 150 pounds per square inch. 13. A method for making a floating barrier comprising the steps of: providing a hollow mold structure; proportioning a buoyant concrete mixture of cement, water, beaded forms of expanded polystyrene, and polypropylene fibers to have a density less than water; mixing the proportioned buoyant concrete mixture; pouring the mixed buoyant concrete mixture into said hollow mold structure; compressing said mixture to remove air and encapsulate said beaded forms with concrete and curing said poured buoyant concrete mixture into a solid flotation module. 14. The method of claim 13 wherein said step of curing includes the step of; creating said solid flotation module to be crushable and to not typically fail in shear. 15. The method of claim 14 wherein said step of proportioning includes the step of: creating a density of said flotation module in the range of thirty-five to fifty pounds per cubic foot. 16. The method of claim 15 wherein said step of providing includes the steps of: shaping said mold to define an elongate rectangular-shaped base portion; and shaping said mold to define an elongate rectangular-shaped upright portion. 17. The method of claim 16 wherein said step of proportioning said buoyant concrete mixture comprises the step of: selecting 1004 pounds of said cement, 552 pounds of said water, and 7 pounds of said polypropylene fibers per volume of 49 cubic feet of said polystyrene beads. 18. The method of claim 17 further including the steps of: mixing said cement to said beads in a ratio of about 1:3.5 by volume, said water to said cement in a ratio of about 0.5 (1:2) by weight and said fibers to said cement in a ratio of about 1:141 by weight. 19. The method of claim 18 further including the steps of: molding a plurality of flotation modules each having elongate channels therein; and passing lines through said channels to form said barrier.
Provenance
- Original
- https://dodtechmatch.com/dod/patent/patentview.aspx?id=6994048
- Archived copy
- Wayback Machine snapshot
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