Method for manufacturing three-dimensional shaped object and three-dimensional shaped object

The invention claimed is: 1. A method for manufacturing a metal mold, the method comprising: forming a solidified layer by irradiating a predetermined portion of a powder layer of metal powder with a light beam, thereby allowing sintering of the powder of the predetermined portion or melting and subsequent solidification thereof; and forming another solidified layer by forming a new powder layer of metal powder on the resulting solidified layer, and then irradiating another predetermined portion of the new powder layer with the light beam, the formation of the solidified layer and the another solidified layer being repeatedly performed, wherein the metal mold is manufactured such that it has three different solidified portions defined by a high-density solidified portion, an intermediate-density solidified portion and a low-density solidified portion in at least a part of the metal mold, wherein a metal mold surface portion of the metal mold is composed of the high-density solidified portion and the intermediate-density solidified portion, the intermediate-density solidified portion having a solidified density of 70% to 90% is located in at least part of a surface region of the metal mold surface portion, the solidified density being defined by a ratio of a solidified region of the intermediate-density solidified portion to a total region of the intermediate density solidified portion, the total region being an aggregate of both the solidified region and a vacancy portion that does not include the solidified region, and wherein the intermediate-density solidified portion is provided in connection to the low-density solidified portion such that the intermediate-density solidified portion serves as a gas passage, and the low-density solidified portion extends to a back side of the metal mold, wherein the back side of the metal mold is opposite to the at least part of the surface region. 2. The method according to claim 1 , wherein the intermediate-density solidified portion and the low-density solidified portion are formed to be located next to each other so that a gas can pass through the intermediate-density solidified portion and the low-density solidified portion. 3. The method according to claim 1 , wherein the intermediate-density solidified portion is formed in such a step-by-step manner that a plurality of light beam irradiations are performed. 4. The method according to claim 3 , wherein an irradiation energy density of the light beam irradiations is stepwise decreased. 5. The method according to claim 3 , wherein a new powder material of metal powder is supplied to a region to be irradiated at a point in time between one of the light beam irradiations and the subsequent light beam irradiation. 6. The method according to claim 5 , wherein, prior to the supply of the new powder material, a surface of the irradiated region by the one of the light beam irradiations is subjected to a machining process so that the irradiated region has a predetermined height. 7. The method according to claim 5 , wherein, during the supply of the new powder material, the irradiated region by the one of the light beam irradiations and/or the powder material are/is subjected to a vibration. 8. A metal mold, comprising: a solidified layer formed by irradiating a predetermined portion of a powder layer of metal powder with a light beam, thereby allowing sintering of the powder of the predetermined portion or melting and subsequent solidification thereof; and another solidified layer formed by forming a new powder layer of metal powder on the resulting solidified layer, and then irradiating another predetermined portion of the new powder layer with the light beam, the formation of the solidified layer and the another solidified layer being repeatedly performed, wherein the metal mold has three different solidified portions defined by a high-density solidified portion, an intermediate-density solidified portion and a low-density solidified portion in at least a part of the metal mold, wherein a metal mold surface portion of the metal mold is composed of the high-density solidified portion and the intermediate-density solidified portion, the intermediate-density solidified portion having a solidified density of 70% to 90% is located in at least part of a surface region of the metal mold surface portion, the solidified density being defined by a ratio of a solidified region of the intermediate-density solidified portion to a total region of the intermediate density solidified portion, the total region being an aggregate of both the solidified region and a vacancy portion that does not include the solidified region, and wherein the intermediate-density solidified portion is provided in connection to the low-density solidified portion such that the intermediate-density solidified portion serves as a gas passage, and the low-density solidified portion extends to a back side of the metal mold, wherein the back side of the metal mold is opposite to the at least part of the surface region. 9. The metal mold according to claim 8 , wherein a thickness of the intermediate-density solidified portion is in the range of 0.05 mm to 5 mm. 10. The metal mold according to claim 8 , wherein a pore size of the intermediate-density solidified portion is 50 μm or less. 11. The method according to claim 1 , wherein the high-density solidified portion is formed such that the combination of intermediate-density solidified portion and the low-density solidified portion is surrounded by the high-density solidified portion. 12. The method according to claim 1 , wherein the low-density solidified portion is formed to be located behind the intermediate-density solidified portion. 13. The metal mold according to claim 8 , wherein the metal mold is selected from one of a core metal mold and a cavity metal mold, and wherein the surface region of the metal mold surface portion is defined by at least a part of a cavity-forming surface of the one of the core metal mold and the cavity metal mold. 14. The metal mold according to claim 13 , wherein the intermediate-density solidified portion and the low-density solidified portion are located next to each other, and thereby a gas vent of the one of the core metal mold and the cavity metal mold is provided.