Microcellular carbon foam and method

Simandl, R F; Brown, J D

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A - human necessities
A01 - agriculture
A21 - baking
A22 - butchering
A23 - foods or foodstuffs
A24 - tobacco
A41 - wearing apparel
A42 - headwear
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A44 - haberdashery
A45 - hand or travelling articles
A46 - brushware
A47 - furniture
A61 - medical or veterinary science
A62 - life-saving
A63 - sports
A99 - subject matter not otherwise provided for in this section
B - performing operations
B01 - physical or chemical processes or apparatus in general
B02 - crushing, pulverising, or disintegrating
B03 - separation of solid materials using liquids or using pneumatic tables or jigs
B04 - centrifugal apparatus or machines for carrying-out physical or chemical processes
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B21 - mechanical metal-working without essentially removing material
B22 - casting
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B27 - working or preserving wood or similar material
B28 - working cement, clay, or stone
B29 - working of plastics
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B31 - making articles of paper, cardboard or material worked in a manner analogous to paper
B32 - layered products
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B62 - land vehicles for travelling otherwise than on rails
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B64 - aircraft
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B66 - hoisting
B67 - opening, closing {or cleaning} bottles, jars or similar containers
B68 - saddlery
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C25 - electrolytic or electrophoretic processes
C30 - crystal growth
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D - textiles
D01 - natural or man-made threads or fibres
D02 - yarns
D03 - weaving
D04 - braiding
D05 - sewing
D06 - treatment of textiles or the like
D07 - ropes
D10 - indexing scheme associated with sublasses of section d, relating to textiles
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Title: Microcellular carbon foam and method

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Abstract

A microcellular carbon foam is characterized by a density in the range of about 30 to 1000 mg/cm[sup 3], substantially uniform distribution of cell sizes of diameters less than 100 [mu]m with a majority of the cells being of a diameter of less than about 10 [mu]m, well interconnected strut morphology providing open porosity, and an expanded d(002) X-ray turbostatic spacing greater than 3.50 angstroms. The precursor for the carbon foam is prepared by the phase inversion of polyacrylonitrile in a solution consisting essentially of at least one alkali metal halide and a phase inversion solvent for the polyacrylonitrile.

Inventors:: Simandl, R F; Brown, J D

Issue Date:: 1993-12-07

OSTI Identifier:: 5304136

Patent Number(s):: 5268395

Assignee:: Martin Marietta Energy Systems, Inc., Oak Ridge, TN (United States)

DOE Contract Number:: AC05-84OR21400

Resource Type:: Patent

Resource Relation:: Patent File Date: 16 Feb 1993

Country of Publication:: United States

Language:: English

Subject:: 36 MATERIALS SCIENCE; CARBON; MORPHOLOGY; PHYSICAL PROPERTIES; SYNTHESIS; FOAMS; ALKALI METAL COMPOUNDS; BULK DENSITY; HALIDES; NITRILES; ORGANIC POLYMERS; PORE STRUCTURE; COLLOIDS; DENSITY; DISPERSIONS; ELEMENTS; HALOGEN COMPOUNDS; MICROSTRUCTURE; NONMETALS; ORGANIC COMPOUNDS; ORGANIC NITROGEN COMPOUNDS; POLYMERS; 360600* - Other Materials

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                    Simandl, R F, and Brown, J D. Microcellular carbon foam and method.  United States: N. p., 1993. 
        Web.

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                    Simandl, R F, & Brown, J D. Microcellular carbon foam and method.  United States.

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                    Simandl, R F, and Brown, J D. Tue .  
        "Microcellular carbon foam and method".  United States.

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@article{osti_5304136,

  title        = {Microcellular carbon foam and method},

  author       = {Simandl, R F and Brown, J D},

  abstractNote = {A microcellular carbon foam is characterized by a density in the range of about 30 to 1000 mg/cm[sup 3], substantially uniform distribution of cell sizes of diameters less than 100 [mu]m with a majority of the cells being of a diameter of less than about 10 [mu]m, well interconnected strut morphology providing open porosity, and an expanded d(002) X-ray turbostatic spacing greater than 3.50 angstroms. The precursor for the carbon foam is prepared by the phase inversion of polyacrylonitrile in a solution consisting essentially of at least one alkali metal halide and a phase inversion solvent for the polyacrylonitrile.},

  doi          = {},

  journal      = {},
number       = ,

  volume       = ,

  place        = {United States},

  year         = {1993},

  month        = {12}

}

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