Metal foam production method and metal foam production apparatus

The invention claimed is: 1. A metal foam production method comprising steps of: using a mold that transmits light and a precursor made by mixing a metal with a foaming agent, the mold consisting of a net made of metal, the net being formed of a plurality of holes; and irradiating the precursor with a light transmitted through the holes of the net in the mold to thereby heat and foam the precursor to obtain a metal foam, and controlling a shape of the metal foam by the mold. 2. The metal foam production method according to claim 1 , wherein the mold is shaped to surround the precursor, and the metal foam is shaped by the mold. 3. The metal foam production method according to claim 1 , wherein a plurality of dense metal materials are arranged around the precursor, and the precursor is foamed into the metal foam, so that the plurality of dense metal materials are joined by the metal foam. 4. The metal foam production method according to claim 1 , wherein a plurality of additional metal foams are arranged around the precursor, and the precursor is foamed into the metal foam, so that the plurality of additional metal foams are joined by the metal foam. 5. The metal foam production method according to claim 1 , wherein the precursor and a dense metal material are used, and the precursor is foamed into the metal foam, so that the dense metal material is joined to the metal foam. 6. The metal foam production method according to claim 1 , wherein the precursor, a dense metal material and an additional metal foam are used, and the precursor is foamed into the metal foam, so that the dense metal material is joined to the additional metal foam by the metal foam. 7. The metal foam production method according to claim 1 , wherein an irradiation range of light is selected by setting focus of a light source. 8. The metal foam production method according to claim 1 , wherein an irradiation range of light is selected by providing a mask having an opening and shielding the light. 9. The metal foam production method according to claim 1 , wherein the mold is a cylindrical mold. 10. The metal foam production method according to claim 1 , wherein a plurality of the precursors each made of a different metal having a different melting point, two of the plurality of the precursors are arranged so that respective metal foams of the two precursors are joined to each other after foaming, and each precursor is irradiated with a light so as to be heated to thereby produce a functionally graded material whose properties spatially vary. 11. The metal foam production method according to claim 1 , wherein the precursor includes a plurality of metals each having different melting points, a foaming agent is mixed with the plurality of metals in the precursor that is irradiated with a light so as to be heated, so that a functionally graded material whose properties spatially vary is produced. 12. A metal foam production method comprising steps of: using a mold that transmits light and a plurality of precursors made by mixing a plurality of metals with a foaming agent, the mold being made of a material with openings, and an aperture ratio of each part of the mold corresponding to each precursor of the plurality of precursors is selected so that the part corresponding to a precursor made from a metal having a lower melting point has a smaller aperture ratio; and irradiating the plurality of precursors with a light transmitted through the mold to thereby heat and foam the plurality of precursors to obtain a metal foam, and controlling a shape of the metal foam by the mold, wherein: the plurality of precursors are each made of a different metal having a different melting point, two of the plurality of the precursors are arranged so that respective metal foams of the two precursors are joined to each other after foaming, and each precursor, when being irradiated and heated with the light, produces a functionally graded material whose properties spatially vary, or the foaming agent is mixed with the plurality of metals in a first precursor of the plurality of precursors when the first precursor is irradiated with the light so as to be heated, so that a functionally graded material whose properties spatially vary is produced. 13. A metal foam production method comprising steps of: using a mold that transmits light and a precursor made by mixing a metal with a foaming agent; and irradiating the precursor with a light transmitted through the mold to thereby heat and foam the precursor to obtain a metal foam, and controlling a shape of the metal foam by the mold, wherein: the foaming agent is mixed with a plurality of metals in the precursor that is irradiated with a light so as to be heated, so that a functionally graded material whose properties spatially vary is produced, and the mold is made of a material with openings, and an aperture ratio of each part of the mold corresponding to each metal is selected so that the part corresponding to a metal having a lower melting point has smaller aperture ratio.