Claims
- 1. A sealably encased sample specimen used for evaluations involving liquid displacement tests, comprising:
a quantity of a material forming a material sample which is selected from a larger mixture quantity comprising one or more of loose and/or compacted aggregates and/or bituminous materials, such that said material sample is representative of the larger mixture's composition, wherein said material sample has a coarse exterior surface contour; at least one preformed resilient bag, the bag having outer walls and a sealed edge portion and a predetermined apparent density value associated therewith, wherein said bag is configured and sized to hold said material sample therein, wherein said quantity of material sample is sealed within said resilient bag such that a region of said bag proximate to said sealed edge is free of said material sample, wherein said preformed bag is configured to provide a vacuum sealed bag which encases said material sample such that said bag outer walls substantially conform to said material sample's exterior surface contour and can prevent the migration of water therein during immersion in a liquid water bath, and wherein said bag apparent density value is used to establish the density of the material sample.
- 2. A sample specimen configuration according to claim 1, wherein the material sample is a quantity of uncompacted loose material.
- 3. A sample specimen configuration according to claim 2, wherein said uncompacted loose material sample is an uncompacted bituminous material sample which comprises asphalt.
- 4. A sample specimen configuration according to claim 2, wherein said uncompacted loose material sample comprises a plurality of different types and size aggregates.
- 5. A sample specimen configuration according to claim 1, wherein, during liquid displacement based analysis, said preformed resilient bag has a first sealed configuration and a second unsealed configuration, and wherein an opening introduced into said bag defines said second unsealed configuration and destroys the integrity of said sealed bag holding said material sample and allows fluid to enter therethrough to contact said uncompacted material.
- 6. A sample specimen configuration according to claim 5, wherein, in said second configuration, said bag comprises a quantity of liquid disposed therein.
- 7. A sample specimen configuration according to claim 1, wherein the material specimen comprises a compacted bituminous material.
- 8. A sample specimen configuration according to claim 1, wherein the material specimen comprises asphalt.
- 9. A sample specimen configuration according to claim 1, wherein said material sample comprises at least one of compacted soil, concrete, compacted aggregate, compacted asphalt, compacted bituminous material, and solid core materials.
- 10. A sample specimen configuration according to claim 1, wherein said material specimen comprises at least one of loose aggregates and uncompacted bituminous paving materials.
- 11. A sample specimen configuration according to claim 1, wherein the material sample has a weight that is between about 500-2500 grams.
- 12. A sample specimen configuration according to claim 1, wherein said preformed bag includes overlying walls having corresponding perimeters, and wherein said overlying walls are joined along a major portion of the perimeters to define outwardly extending generally planar edge portions.
- 13. A sample specimen configuration according to Claim 1, wherein the at least one preformed bag comprises a first preformed bag held inside a second preformed bag, the first preformed bag being open at a first end portion with the second preformed bag being sealed.
- 14. A sample specimen configuration according to claim 1, wherein the encased material sample is substantially uniformly spread across a major portion of the bag.
- 15. A vacuum system for preparing and sealing in a pre-formed bag an uncompacted or compacted material specimen for liquid immersion evaluation, comprising:
a vacuum apparatus with a vacuum receiving chamber having a perimeter defining an internal holding region with a floor, wherein said holding region is configured and sized to receive a preformed bag with a coarse material sample held therein, wherein said vacuum apparatus comprises:
a sealing ledge located in said vacuum chamber along a perimeter portion thereof, wherein, in operation, said sealing ledge is configured to apply heat to and seal an edge of the preformed bag together; an air channel in fluid communication with said vacuum chamber; a vacuum pump in fluid communication with said vacuum chamber; and a support member positioned on said floor, said support member configured and sized to hold the specimen in the preformed bag, wherein, in operation, said support member is configured within said vacuum chamber to translate toward said sealing ledge.
- 16. A vacuum system according to claim 15, wherein said support member resides directly on said vacuum chamber floor.
- 17. A vacuum system according to claim 15, wherein said support member includes a cushioning material thereon for supporting said specimen in said bag.
- 18. A vacuum system according to claim 15, wherein said support member is held in said vacuum chamber such that it is substantially free to horizontally translate in response to forces exerted onto the bag by said sealing ledge.
- 19. A vacuum system according to claim 15, wherein said support member is defined by an electro-mechanical slide mechanism operably associated with a controller which, in operation, is configured to independently move toward said sealing ledge holding the sample in the bag thereon at predetermined points in the evacuation/sealing cycle, to thereby reduce forces acting on the bag and reduce the likelihood that the bag will puncture.
- 20. A vacuum system according to claim 15, in combination with at least one preformed resilient bag having a material sample with a profile positioned therein, wherein said preformed bag has a first non-sealed configuration and a second sealed configuration, and wherein in said second sealed configuration said preformed bag is configured to encase and substantially conform about said sample's profile.
- 21. A vacuum system according to claim 20, wherein said vacuum apparatus includes a flow rate adjustable exhaust port which is operably associated with said air channel, and wherein, in operation, said preformed bag collapses to conform to said sample's profile responsive to the controlled introduction of air into said exhaust port.
- 22. A vacuum system according to claim 21, wherein said vacuum chamber sealing ledge includes at least one heating element positioned thereon for sealing said bag with said material sample held therein.
- 23. A vacuum system according to claim 21, further comprising a controller and computer program code for operating said vacuum with predetermined times and pressures corresponding to one or more of the type of bag and the sample type being sealed.
- 24. A vacuum system according to claim 20, wherein the material sample comprises a bituminous material.
- 25. A vacuum system according to claim 20, wherein the material sample comprises a compacted material.
- 26. A vacuum system according to claim 20, wherein the material sample comprises asphalt.
- 27. A vacuum system according to claim 20, wherein said material sample comprises at least one of compacted soil, concrete, compacted aggregate, compacted asphalt, compacted bituminous material, and solid core materials.
- 28. A vacuum system according to claim 20, wherein said material sample comprises at least one of loose aggregates and uncompacted bituminous paving materials.
- 29. A vacuum system according to claim 20, wherein the material sample has a weight that is between about 500-2500 grams.
- 30. A vacuum system according to claim 20, wherein said preformed bag includes overlying walls having corresponding perimeters, and wherein said overlying walls are joined along a major portion of the perimeters to define outwardly extending generally planar edge portions.
- 31. A vacuum system according to claim 20, wherein the at least one preformed bag comprises a first preformed bag held inside a second preformed bag, the first preformed bag being open at a first end portion with the second preformed bag being sealed.
- 32. A vacuum system according to claim 20, wherein the material sample is positioned in the preformed bag held in the vacuum receiving chamber such that it is substantially uniformly spread across a major portion of the preformed bag during operation.
- 33. A method for transferring an evacuated material specimen from a vacuum apparatus to a liquid displacement bath, comprising the steps of:
inserting a material sample comprising at least one of an uncompacted, compacted or loose bituminous material mixture, soil sample, aggregate sample and/or concrete sample into a first collapsible bag; engaging the bag with the material sample to a vacuum apparatus; evacuating the bag with the material sample held therein; sealing the bag to encase and maintain an evacuated state on the material sample held encased therein; removing the sealed material specimen from the vacuum apparatus; and transferring the sealed bag holding the material specimen to a liquid displacement bath.
- 34. A method according to claim 33, wherein the material sample comprises asphalt.
- 35. A method according to claim 33, wherein said material sample is at least one of compacted soil, concrete, compacted aggregate, compacted asphalt, compacted bituminous material, and solid core materials.
- 36. A method according to claim 33, wherein said material sample is at least one of loose aggregates and uncompacted bituminous paving materials.
- 37. A method according to claim 33, wherein the material sample has a weight that is between about 500-2500 grams.
- 38. A method according to claim 33, wherein said first bag includes overlying walls having corresponding perimeters, and wherein said overlying walls are joined along a major portion of the perimeters to define outwardly extending generally planar edge portions.
- 39. A method according to claim 33, wherein the material sample is held in a second bag that is positioned inside the first bag, and wherein the sealing step is carried out so that the second bag remains open at a first end portion and the first bag is sealed.
- 40. A method according to claim 33, further comprising spreading the material sample in a substantially uniform manner within the first bag so that it resides across a major portion of the first bag.
RELATED APPLICATION
[0001] This application is a divisional of U.S. patent application Ser. No. 09/580,792, filed May 30, 2000, which is a continuation-in-part of co-pending U.S. patent application Ser. No. 09/340,105, filed on Jun. 25, 1999, the contents of which are hereby incorporated by reference as if recited in full herein.
Divisions (1)
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Number |
Date |
Country |
Parent |
09580792 |
May 2000 |
US |
Child |
10196650 |
Jul 2002 |
US |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
09340105 |
Jun 1999 |
US |
Child |
09580792 |
May 2000 |
US |