Coated metal, coating-forming treatment solution, and method for producing coated metal

The invention claimed is: 1. Coated metal, the metal including metal and a coating formed on the metal, the coating comprising Si, P, and O, and at least one selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn the coating comprising a compound having a Na Super Ionic Conductor-type (NASICON-type) crystal structure represented by a general formula M I M IV 2 (M V O 4 ) 3 , wherein, in the general formula M I M IV 2 (M V O 4 ) 3 , M I is at least one selected from the group consisting of Li, Na, K, ½Mg, ½Ca, ½Sr, and ¼Zr, M IV is at least one selected from the group consisting of Zr, Ge, Ti, Hf, Cr+Na, Nb—Na, and Y+Na, and My is at least one selected from the group consisting of P, As, and Si+Na. 2. The coated metal according to claim 1 , wherein the coating is a chromium-free coating, free of Cr. 3. The coated metal according to claim 2 , wherein the metal comprises a steel sheet. 4. The coated metal according to claim 3 , wherein the steel sheet comprises a grain-oriented electrical steel sheet. 5. A method for producing the coated metal according to claim 3 , the method comprising: applying a coating-forming treatment solution onto the metal; and subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the coating-forming treatment solution comprising: at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn; colloidal silica; and a compound having a Na Super Ionic Conductor-type (NASICON-type) crystal structure represented by general formula M I M IV 2 (M V O 4 ) 3 , wherein, in the general formula M I M IV 2 (M V O 4 ) 3 , M I is at least one selected from the group consisting of Li, Na, K, ½Mg, ½Ca, ½Sr, and ¼Zr, M IV is at least one selected from the group consisting of Zr, Ge, Ti, Hf, Cr+Na, Nb—Na, and Y+Na, and My is at least one selected from the group consisting of P, As, and Si+Na. 6. A method for producing the coated metal according to claim 3 , the method comprising: applying a coating-forming treatment solution onto the metal, the coating-forming treatment solution including at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn, colloidal silica, and a metal sol having a primary particle diameter of 100 nm or less; and after the application, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the heat treatment is a process in which the metal is held in a temperature range of 600° C. or higher and 700° C. or lower for 10 seconds or more and 60 seconds or less, and, after the holding, baking is performed thereon at 800° C. or higher. 7. A method for producing the coated metal according to claim 3 , the method comprising: applying a glass-coating-forming treatment solution containing glass powder onto the metal; and thereafter, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere. 8. A method for producing the coated metal according to claim 2 , the method comprising: applying a coating-forming treatment solution onto the metal; and subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the coating-forming treatment solution comprising: at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn; colloidal silica; and a compound having a Na Super Ionic Conductor-type (NASICON-type) crystal structure represented by general formula M I M IV 2 (M V O 4 ) 3 , wherein, in the general formula M I M IV 2 (M V O 4 ) 3 , M I is at least one selected from the group consisting of Li, Na, K, ½Mg, ½Ca, ½Sr, and ¼Zr, M IV is at least one selected from the group consisting of Zr, Ge, Ti, Hf, Cr+Na, Nb—Na, and Y+Na, and M V is at least one selected from the group consisting of P, As, and Si+Na. 9. A method for producing the coated metal according to claim 2 , the method comprising: applying a coating-forming treatment solution onto the metal, the coating-forming treatment solution including at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn, colloidal silica, and a metal sol having a primary particle diameter of 100 nm or less; and after the application, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the heat treatment is a process in which the metal is held in a temperature range of 600° C. or higher and 700° C. or lower for 10 seconds or more and 60 seconds or less, and, after the holding, baking is performed thereon at 800° C. or higher. 10. A method for producing the coated metal according to claim 2 , the method comprising: applying a glass-coating-forming treatment solution containing glass powder onto the metal; and thereafter, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere. 11. The coated metal according to claim 1 , wherein the metal comprises a steel sheet. 12. The coated metal according to claim 11 , wherein the steel sheet comprises a grain-oriented electrical steel sheet. 13. A method for producing the coated metal according to claim 11 , the method comprising: applying a coating-forming treatment solution onto the metal; and subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the coating-forming treatment solution comprising: at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn; colloidal silica; and a compound having a Na Super Ionic Conductor-type (NASICON-type) crystal structure represented by a general formula M I M IV 2 (M V O 4 ) 3 , wherein, in the general formula M I m IV 2 (m V O 4 ) 3 , M I is at least one selected from the group consisting of Li, Na, K, ½Mg, ½Ca, ½Sr, and ¼Zr, M IV is at least one selected from the group consisting of Zr, Ge, Ti, Hf, Cr+Na, Nb—Na, and Y+Na, and M V is at least one selected from the group consisting of P, As, and Si+Na. 14. A method for producing the coated metal according to claim 11 , the method comprising: applying a coating-forming treatment solution onto the metal, the coating-forming treatment solution including at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn, colloidal silica, and a metal sol having a primary particle diameter of 100 nm or less; and after the application, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the heat treatment is a process in which the metal is held in a temperature range of 600° C. or higher and 700° C. or lower for 10 seconds or more and 60 seconds or less, and, after the holding, baking is performed thereon at 800° C. or higher. 15. A method for producing the coated metal according to claim 11 , the method comprising: applying a glass-coating-forming treatment solution containing glass powder onto the metal; and thereafter, subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere. 16. A method for producing the coated metal according to claim 1 , the method comprising: applying a coating-forming treatment solution onto the metal; and subjecting the metal to at least one heat treatment in a non-oxidizing atmosphere, wherein the coating-forming treatment solution comprising: at least one metal phosphate selected from the group consisting of Mg, Ca, Ba, Sr, Zn, Al, and Mn; colloidal silica; and a compound having a Na Super Ionic Conductor-type (NASICON-type) crystal structure represented by general formula M I M IV 2 (M V