Claims
- 1. An assembly for hot consolidating material (10) of metallic and nonmetallic compositions and combinations thereof to form a densified compact (10') of a predetermined density wherein a quantity of such material (10) which is less dense than the predetermined density is heated and disposed in a cavity in a pressure-transmitting medium (22, 24) to which external pressure is applied to the entire exterior of the medium (22, 24) to cause a predetermined densification of the material (10) by hydrostatic pressure applied by the medium (22, 24) in response to the medium being substantially fully dense and incompressible and capable of elastic flow at least just prior to the predetermined densification, characterized by a ram (16) of incompressible material, a pot die (14) made of incompressible material having a pot die cavity (26) therein with peripheral surfaces for receiving and sliding engagement with the exterior surfaces of said ram (16), the pressure-transmitting medium being elastomeric and being defined by first (22) and second (24) components, said first component (22) of said elastomeric medium being disposed within a cavity (26) in said pot die (14), said second component (24) of said elastomeric medium being acted upon by said ram (16), said ram (16) being movable into and out of said cavity (26) in said pot die (14) in close sliding engagement therewith, said first and second elastomeric components (22, 24) and said ram (16) and pot die (14) being configured so that said ram (16) enters said cavity (26) of said pot die (14) prior to said elastomeric components (22, 24) engaging one another, a formed thermal insulating barrier means (32, 34) for surrounding the material (10) and disposition within the cavity of the elastomeric medium (22, 24) to establish a thermal barrier between the material (10) and the elastomeric medium (22, 24) so that the material (10) may be heated prior to placing the thermal barrier means (32, 34) within the cavity defined by the first (22) and second (24) components of elastomeric medium and applying pressure to the medium (22, 24) to crumble the thermal barrier means (32, 34) surrounding the material (10) to limit heat transfer between the material (10) and the elastomeric medium (22, 24) whereby the first and second components (22, 24) of the elastomeric medium are successively opened and closed upon the opening and closing of the ram and pot die respectively in a press to successively form a plurality of densified compacts with a plurality of formed barrier means.
- 2. An assembly as set forth in claim 1 further characterized by said thermal insulating barrier means (32, 34) including a first thermal insulating jacket (32) for limiting heat loss from the material (10) and a second thermal insulating jacket (34) surrounding the first jacket (32) for protecting the elastomeric medium (22, 24) from heat from the first jacket (32).
- 3. An assembly as set forth in claim 2 further characterized by including a sealed container (12) encapsulating the material (10), said first jacket (32) having an interior cavity corresponding to the exterior configuration of said container (12) for surrounding said container (12).
- 4. An assembly as set forth in claim 3 further characterized by said first jacket (32) being a monolithic material surrounding said container (12).
- 5. An assembly as set forth in claim 4 further characterized by said second jacket (34) including a plurality of sections for mating engagement with one another to surround said first jacket (32).
- 6. An assembly as set forth in any one of claims 1 through 3 further characterized by said thermal barrier means (32, 34) being at least in part fluidic and capable of flow just prior to the predetermined densification.
- 7. An assembly as set forth in any one of claims 1 through 3 further characterized by said thermal barrier means (32, 34) including, at least in part, reinforcing fibers dispersed therein.
- 8. An assembly as set forth in any one of claims 1 through 3 further characterized by including a ram (16) and pot die (14) for applying pressure to said medium (22, 24).
- 9. An assembly as set forth in any one of claims 1 through 3 further characterized by at least one of said elastomeric components (22, 24) having a plurality of lubrication grooves (38) in the surface thereof abutting said ram (16) or pot die (14) for facilitating movement of said elastomeric component relative to the adjacent supporting surface of said ram or pot die.
- 10. An assembly as set forth in any one of claims 1 through 3 further characterized by a seal (36) of harder material than the elastomeric medium (22) disposed within and below the extremity of the cavity (26) of said pot die (14) so that after the ram (16) enters said pot die (14) and applies pressure to said elastomeric medium (22, 24) said seal (36) is forced into sealing engagement with said cavity (26) in said pot die (14) at the juncture thereof with said ram (16) to prevent leakage of the elastomeric medium (22) between said ram (16) and pot die (14).
- 11. An assembly as set forth in any one of claims 1 through 3 further characterized by a seal (36) of harder material than the elastomeric medium (22) disposed within and below the extremity of the cavity (26) of said pot die (14) so that after the ram (16) enters said pot die (14) and applies pressure to said elastomeric medium (22, 24) said seal (36) is forced into sealing engagement with said cavity (26) in said pot die (14) at the juncture thereof with said ram (16) to prevent leakage of the elastomeric medium (22, 24) between said ram (16) and pot die (14), said seal having a beveled surface disposed at an acute angle relative to the direction of movement of said ram (16) into said pot die (14) and facing into said cavity (26) of said pot die (14), said seal (36) having grooves (40) in the exterior surface thereof.
RELATED APPLICATION
This application is a divisional of Ser. No. 419,435, filed Sept. 20, 1982 and now abandoned.
US Referenced Citations (7)
Divisions (1)
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Number |
Date |
Country |
Parent |
419435 |
Sep 1982 |
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