Method for producing ceramic sintered body, ceramic sintered body, and light emitting device

The invention claimed is: 1. A method for producing a ceramic sintered body, comprising: a step of heat-treating a raw material mixture containing: a first nitride containing at least one alkaline earth metal element M′ selected from the group consisting of Ba, Sr, Ca, and Mg, a second nitride containing at least one metal element M 2 selected from the group consisting of Eu, Ce, Tb, and Mn, and a third nitride containing Si, at a temperature in a range of 980° C. or more and 1,680° C. or less—in an atmosphere containing nitrogen to obtain a nitride fluorescent material having a composition containing: the at least one alkaline earth metal element M′ selected from the group consisting of Ba, Sr, Ca, and Mg; the at least one metal element M 2 selected from the group consisting of Eu, Ce, Tb, and Mn; Si; and N, wherein a total molar ratio of the alkaline earth metal element M 1 and the metal element M 2 in 1 mol of the composition is 2, a molar ratio of the metal element M 2 is a product of 2 and a parameter y wherein y is in a range of 0.001 or more and less than 0.5, a molar ratio of Si is 5, and a molar ratio of N is 8, and wherein the nitride fluorescent material has a crystallite size, as calculated by X-ray diffraction measurement using the Halder-Wagner method, of 550 Å or less, preparing a molded body that contains the nitride fluorescent material and calcining the molded body at a temperature in a range of 1,600° C. or more and 2,200° C. or less to obtain a sintered body. 2. The method for producing a ceramic sintered body according to claim 1 , wherein a temperature for calcining the molded body is in a range of 1,600° C. or more and 2,100° C. or less. 3. The method for producing a ceramic sintered body according to claim 1 , wherein a temperature for heat-treating the raw material mixture is in a range of 1,350° C. or more and 1,650° C. or less. 4. The method for producing a ceramic sintered body according to claim 1 , wherein the crystallite size of the nitride fluorescent material is in a range of 200 Å or more and 450 Å or less. 5. The method for producing a ceramic sintered body according to claim 1 , wherein an average particle diameter, as measured according to the Fisher Sub-Sieve Sizer method, of the nitride fluorescent material is less than 5.0 μm. 6. The method for producing a ceramic sintered body according to claim 1 , wherein the content of the nitride fluorescent material having a crystallite size of 550 Å or less in the molded body is 95% by mass or more. 7. The method for producing a ceramic sintered body according to claim 1 , wherein the nitride fluorescent material has a composition represented by the following formula (I): (M 1 1-y M 2 y ) 2 Si 5 N 8   (I) wherein M 1 represents at least one alkaline earth metal element selected from the group consisting of Ba, Sr, Ca, and Mg; M 2 represents at least one metal element selected from the group consisting of Eu, Ce, Tb, and Mn; and y satisfies 0.001≤y<0.5. 8. The method for producing a ceramic sintered body according to claim 1 , wherein the molded body is formed by at least one method selected from a die press molding method, a cold isostatic pressing method, and a slurry molding method. 9. The method for producing a ceramic sintered body according to claim 8 , wherein the molded body is formed by a die press molding method, and a pressure at the time of die press molding is in a range of 5 MPa or more and 50 MPa or less.