A class of lightweight structural members, characterized by lighter weight and greater resistance to buckling under axial compressive loading, as compared to conventional structural members, is described. The lightweight structural members typically comprise a thin tubular member filled with a metal
A class of lightweight structural members, characterized by lighter weight and greater resistance to buckling under axial compressive loading, as compared to conventional structural members, is described. The lightweight structural members typically comprise a thin tubular member filled with a metallic foam material. The foam material preferably comprises particulate matter comprised of agglomerated fly ash material, and, preferably, gaseous material in pores within the foam material. In an alternate configuration, the lightweight structural member comprises two tubular members, one nested inside the other, wherein the annular volume between the tubular members is filled with metallic foam material. A method for manufacturing the structural members is also described.
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We claim: 1. A lightweight structural member comprising: a metallic tubular member, characterized by a wall thickness and interior and exterior surfaces, the interior surface thereof defining an internal volume therewithin; and foam material comprising hollow fly ash particulate material, an agglom
We claim: 1. A lightweight structural member comprising: a metallic tubular member, characterized by a wall thickness and interior and exterior surfaces, the interior surface thereof defining an internal volume therewithin; and foam material comprising hollow fly ash particulate material, an agglomerating agent and a metallic matrix material, wherein the agglomerating agent agglomerates individual particles of fly ash into agglomerated particles larger than the individual particles; and wherein the foam material fills at least a portion of the internal volume of the tubular member. 2. The lightweight structural member recited in claim 1, wherein the foam material fills substantially the entire internal volume of the tubular member. 3. The lightweight structural member recited in claim 1, wherein the metallic material comprises a ferrous material. 4. The lightweight structural member recited in claim 1, wherein the metallic matrix material comprises aluminum. 5. The lightweight structural member recited in claim 1, where the agglomerating agent comprises sodium silicate. 6. The lightweight structural member recited in claim 1, wherein the amount of the agglomerating agent is less than about ten percent of a total volume of the individual particles. 7. The lightweight structural member recited in claim 1, wherein the agglomerated particles are larger than about 0.5 millimeter and smaller than about 10 millimeters in characteristic dimension. 8. The lightweight structural member recited in claim 7, wherein the agglomerated particles are larger than about 1 millimeter and smaller than about 6 millimeters in characteristic dimension. 9. The lightweight structural member recited in claim 1, additionally comprising at least one gaseous substance disposed within three distinct types of pores in the foam material, namely, pores within the metallic matrix material, pores between individual fly ash particles within the agglomerated particles and pores within individual fly ash particles. 10. The lightweight structural member recited in claim 1, wherein the tubular member is characterized by a cross section that is uniform in size and configuration throughout the length of the tubular member. 11. The lightweight structural member recited in claim 1, wherein the tubular member is characterized by a cross section that is not uniform in size and configuration throughout the length thereof, consequent to subjecting the tubular member to at least one forming operation prior to placement of the foam material in the internal volume thereof. 12. The lightweight structural member recited in claim 1, wherein the tubular member additionally comprises an appurtenant structure. 13. The lightweight structural member recited in claim 12, wherein the appurtenant structure comprises a reinforcement. 14. A lightweight structural member comprising: a first tubular member having a tubular configuration, wherein the first tubular member is characterized by interior and exterior surfaces; a second tubular member having a tubular configuration, wherein the second tubular member is characterized by interior and exterior surfaces; and foam material comprising hollow fly ash particulate material, an agglomerating agent and a metallic matrix material, wherein the agglomerating agent agglomerates individual particles of fly ash into agglomerated particles larger than the individual particles; wherein at least one member of the group consisting of the first tubular member and the second tubular comprises a metallic material; wherein the interior surface of the first tubular member is of such size and configuration and the exterior surface of the second tubular member is of such size and configuration as to permit disposition of the second tubular member within the first tubular member, thereby defining an annular volume between the interior surface of the first tubular member and the exterior surface of the second tubular member; and wherein the foam material fills at least a portion of the annular volume. 15. The lightweight structural member recited in claim 14, wherein the agglomerating agent comprises sodium silicate. 16. The lightweight structural member recited in claim 14, wherein the metallic matrix material comprises aluminum. 17. The lightweight structural member recited in claim 14, wherein the metallic material comprises a ferrous material. 18. The lightweight structural member recited in claim 14, wherein at least one tubular member additionally comprises an appurtenant structure. 19. The lightweight structural member recited in claim 14, wherein the foam material fills substantially all of the annular volume, and a spatial relationship between the first and second tubular members is fixed thereby. 20. A method for manufacturing a lightweight composite member, comprising the steps of: providing at least a first metallic tubular member having tubular configuration, the first tubular member being characterized by interior and exterior surfaces, the interior surface defining an internal volume of the first tubular member therewithin; and filling at least a portion of the internal volume with a foam material, wherein said foam material comprises hollow fly ash particulate material, an agglomerating agent and a metallic matrix material, said fly ash particulate material comprising a bed thereof; and wherein the agglomerating agent agglomerates individual particles of fly ash into agglomerated particles larger than the individual particles. 21. The method for manufacturing a lightweight composite member recited in claim 20, wherein the bed of fly ash particulate material additionally comprises agglomerated particles of fly ash. 22. The method for manufacturing a lightweight composite member recited in claim 20, wherein the step of filling comprises filling at least a portion of the internal volume with a bed of fly ash particulate material, and infiltrating molten metal therethrough, thereby filling at least a portion of the internal volume with the foam material. 23. The method for manufacturing a lightweight composite member recited in claim 22, wherein the step of infiltrating is conducted at a high linear velocity, thereby entrapping a gaseous material within pores in the foam material. 24. The method for manufacturing a lightweight composite member recited in claim 20, additionally comprising the step of securing an appurtenant structure thereto. 25. The method for manufacturing a lightweight composite member recited in claim 20, wherein the appurtenant member comprises a reinforcement. 26. The method for manufacturing a lightweight composite member recited in claim 20, additionally comprising the steps of: providing a second tubular member, the second tubular member being characterized by interior and exterior surfaces, the interior surface thereof defining a second internal volume therewithin, wherein the second tubular member is further characterized by a size and configuration such as to enable placement thereof within the internal volume of the first tubular member; and disposing the second tubular member within the internal volume of the first tubular member, thereby defining an annular volume between the interior surface of the first tubular member and the exterior surface of the second tubular member; and wherein the step of filling is characterized by filling substantially all of the annular volume, thereby establishing a fixed spatial relationship between the first and second tubular members, and excluding foam material from the second internal volume.
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이 특허에 인용된 특허 (12)
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Rohatgi Pradeep K. (4759 N. Marlbourough Dr. Milwaukee WI 53211), Synthesis of metal matrix composites containing flyash, graphite, glass, ceramics or other metals.
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