Method of producing three dimensional skeletal structures
First Claim
1. In the method of producing a three dimensional skeletal structure by introducing and rigidifying a liquid hardenable filler material which is to form the skeletal structure in a matrix formed by a mold of packed beads which can be removed from the filler material by melting, decomposition or volatization or by a solvent or reactant which is a non-solvent or non-reactant with the filler material, the improvement which comprises:
- a. deforming packed beads having comparable dimensions and an average diameter of at least about 1/100th inch which are in contact with each other and which are rounded such that a mold is formed with a matrix of interconnected spaces between the deformed beads defining a three dimensional skeletal structure of continuous interconnected strands which contains the liquid filler material completely filling the matrix of interconnected spaces between the deformed beads;
b. rigidifying the liquid hardenable filler material to form a continuous and interconnected skeletal structure having openings between the strands and wherein the deformed beads define between about 80 and 98 percent of the total volume; and
c. removing the deformed beads without removing the filler material forming the skeletal structure.
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Abstract
The preparation of three dimensional skeletal structures using the step of deforming rounded beads to form a mold or matrix is described. A filler material is introduced and then rigidified to form the skeletal structure. The deformable beads are composed of materials which deform upon compression or expansion due to pressure from adjacent beads and included, for instance, metals, waxes, salts, polymers, and ceramic compositions in their plasticly deformable states. The filler material which rigidifies to form the skeletal structure can be composed of solidifiable materials such as metals, polymers, or ceramic compositions. The solid material volume of the skeletal structure so formed upon removal of the beads is between about two percent (2%) to twenty percent (20%) of a corresponding volume of a non-skeletal solid material. The corresponding porosities representing the interconnected void volumes are between about eighty percent (80%) and ninety-eight percent (98%) of a corresponding volume of a non-skeletal solid material. The skeletal structures so formed can be flexible, semiflexible or rigid and are useful as heat exchangers, catalyst supports, distillation tower packings, filters and the like.
17 Citations
12 Claims
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1. In the method of producing a three dimensional skeletal structure by introducing and rigidifying a liquid hardenable filler material which is to form the skeletal structure in a matrix formed by a mold of packed beads which can be removed from the filler material by melting, decomposition or volatization or by a solvent or reactant which is a non-solvent or non-reactant with the filler material, the improvement which comprises:
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a. deforming packed beads having comparable dimensions and an average diameter of at least about 1/100th inch which are in contact with each other and which are rounded such that a mold is formed with a matrix of interconnected spaces between the deformed beads defining a three dimensional skeletal structure of continuous interconnected strands which contains the liquid filler material completely filling the matrix of interconnected spaces between the deformed beads; b. rigidifying the liquid hardenable filler material to form a continuous and interconnected skeletal structure having openings between the strands and wherein the deformed beads define between about 80 and 98 percent of the total volume; and c. removing the deformed beads without removing the filler material forming the skeletal structure. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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Specification