High strength monolithic carbon foam

a carbon foam, high-performance technology, applied in the direction of ceramicware, other domestic objects, transportation and packaging, etc., can solve the problems of high thermal and electrical conductivity of foams, ineffective carbon foams produced by prior art processes for many high-temperature applications such as composite tooling, and the general availability of foams that are not monolithic, etc., to achieve the effect of being ready to machin

Inactive Publication Date: 2007-02-08
MILLER DOUGLAS J +2
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0015] The present invention provides a carbon foam which is uniquely capable of use in applications such as for composite tooling. The inventive foam exhibit a density, compressive strength and compressive strength to density ratio to provide a combination of strength and relatively light weight characteristics not heretofore seen. In addition, the monolithic nature and bimodal cell structure of the foam, with a combination of larger and smaller pores, which are relatively spherical, provide a carbon foam which can be produced in a desired size and configuration and which can be readily machined.
[0023] Still another object of the invention is a carbon foam having a porosity and cell structure and distribution to provide utility in applications where highly connected porosity is undesirable.
[0024] Yet another object of the invention is a carbon foam which can be produced in a desired size and configuration, and which can be readily machined or joined to provide larger carbon foam structures.

Problems solved by technology

These foams tend to have high thermal and electrical conductivities.
Unfortunately, carbon foams produced by the prior art processes are not effective for many high temperature applications such as composite tooling.
The foams generally available are not monolithic and do not have the strength and strength to density requirements for such application.
In addition, open-celled foams with highly interconnected pores have porosities making them ill-placed for such applications.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example

[0042] A rectangular phenolic foam block with dimensions of 7.8 inches long, 3.9 inches wide and 2.9 inches thick is converted to carbon foam in the following manner. The starting phenolic foam has a density of 0.32 g / cc, and a compressive strength of about 300 psi. The foam is packed in a steel can, protected from air and then heated at 2° C. per hour to a temperature of 550° C. and then at 10° C. per hour to 900° C. and held for about 20 hours at that temperature. The resultant carbon foam obtained has a density of 0.336 g / cc and a compressive strength of 4206 psi, for a strength to density ratio of 12,517 psi / gm / cc. The thermal conductivity of the foam is measured as 0.3 W / m° K at 25° C. and the permeability is measured as 0.17 darcys.

[0043] The foam was examined by optical microscopy the porosity of the foam is measured as 79.5%. Two sets of pores are observed, and the pores appear round with fairly uniform diameters. An image analysis procedure is used to determine the average...

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Abstract

A carbon foam article useful for, inter alia, composite tooling or other high temperature applications, which includes a carbon foam having a ratio of compressive strength to density of at least about 7000 psi / g / cc.

Description

BACKGROUND OF THE INVENTION [0001] 1. Technical Field [0002] The present invention relates to high strength monolithic carbon foams useful for applications including as composite material tooling. More particularly, the present invention relates to carbon foams exhibiting improved strength, weight and density characteristics. The invention also includes methods for the production of such foams. [0003] 2. Background Art [0004] Carbon foams have attracted considerable recent activity because of their properties of low density, coupled with either very high or low thermal conductivity. Conventionally, Carbon foams are prepared by two general routes. Highly graphitizable foams have been produced by thermal treatment of mesophase pitches under high pressure. These foams tend to have high thermal and electrical conductivities. For example, in Klett, U.S. Pat. No. 6,033,506, mesophase pitch is heated while subjected to a pressure of 1000 psi to produce an open-cell foam containing intercon...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): C01B31/00
CPCC04B38/0032Y10T428/30C04B35/524C04B38/0054C04B38/0067C04B38/0074Y10T428/249953Y10T428/249961Y10T428/249977
Inventor MILLER, DOUGLAS J.LEWIS, IRWIN C.MERCURI, ROBERT A.
Owner MILLER DOUGLAS J
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