Claims
- 1. A composite porous structure comprising:a) an open-pore sponge comprised of regenerated cellulose, and b) microporous polyvinyl chloride (PVC) deposited within said pores, the weight ratio of said PVC to said regenerated cellulose being between 5/1 and 1/1, c) the total volume of said pores being between 60% and 92% of the geometric volume of said structure, and d) the wet compressive strength of said structure being at least ten times greater than the wet compressive strength of said open-pore cellulose sponge without said PVC.
- 2. The composite porous structure of claim 1 having a six-sided cuboid configuration.
- 3. The composite porous structure of claim 1 containing a complexing agent for heavy metals.
- 4. The composite porous structure of claim 1 wherein said open-pore sponge of regenerated cellulose has an average pore size below 2 mm.
- 5. The composite porous structure of claim 4 wherein said pores consist of a random array of tunnels and apertures.
- 6. The composite porous structure of claim 1 wherein said microporous PVC is comprised of a multitudinous random array of interconnecting interstices having walls composed of cohered particles of polymer.
- 7. The composite porous structure of claim 6 wherein the average diameter of said interstices ranges between 0.2 and 20 microns.
- 8. The composite porous structure of claim 1 wherein the surface area of said microporous PVC is between 0.5 and 12 square meters per gram.
- 9. The composite porous structure of claim 1 which undergoes less than 20% of volumetric swelling when said structure, in dry form, is soaked in water.
- 10. A composite porous structure comprising:a) a macroporous open-celled sponge comprised of regenerated cellulose, and b) microporous polyvinylchloride (PVC) deposited within said macropores, the weight ratio of said PVC to said cellulose being between 5/1 and 1/1, c) the total empty space volume produced by the pores of said structure being between 80% and 92% of the outer geometrical volume of said structure, and d) the wet compressive strength of said structure is at least ten times greater than the wet compressive strength of said macroporous cellulose sponge without said PVC.
RELATED APPLICATIONS
This Application is based upon Provisional Application Ser. No. 60/125,087, filed 03/19/99.
US Referenced Citations (8)
Provisional Applications (1)
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Number |
Date |
Country |
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60/125087 |
Mar 1999 |
US |