Electronic component and manufacturing method therefor

The invention claimed is: 1. An electronic component comprising: an electronic component element having an external electrode; a Ni plating film on the external electrode; and a Sn plating film covering the Ni plating film, wherein the Sn plating film has Sn—Ni alloy flakes therein, the Sn—Ni alloy flakes are present in a range from a surface of the Sn plating film on the Ni plating film to 50% or less of the thickness of the Sn plating film, and when Sn is removed from the Sn plating film to leave only the Sn—Ni alloy flakes, an observed planar view of a region occupied by the Sn—Ni alloy flakes falls within a range from 15% to 60% of the observed planar region. 2. The electronic component according to claim 1 , further comprising an intermetallic compound layer comprising Ni 3 Sn 4 , the intermetallic compound layer located between the Ni plating film and the Sn plating film. 3. The electronic component according to claim 1 , wherein the electronic component element is a laminated ceramic capacitor. 4. The electronic component according to claim 1 , wherein the Sn plating film has a Sn polycrystalline structure. 5. The electronic component according to claim 4 , wherein, the Sn—Ni alloy flakes are at Sn crystal grain boundaries of the Sn plating film. 6. The electronic component according to claim 5 , wherein the Sn—Ni alloy flakes are within the Sn crystal grains in the Sn plating film. 7. The electronic component according to claim 1 , wherein the Sn—Ni alloy flakes contain therein 75 to 85 atm % of Sn. 8. A method for manufacturing an electronic component, the method comprising: providing an electronic component element having an external electrode; forming a Ni plating film on the external electrode; forming a first Sn plating film on the Ni plating film; forming Sn—Ni alloy flakes in the first Sn plating film; and forming a second Sn plating film on the first Sn plating film so that a thickness of the first Sn plating film falls within a range of 50% or less of a thickness of the entire Sn plating film comprising the first Sn plating film and the second Sn plating film. 9. The method for manufacturing an electronic component according to claim 8 , further comprising forming an intermetallic compound layer of Ni 3 Sn 4 between the Ni plating film and the first Sn plating film after the forming of the second Sn plating film. 10. The method for manufacturing an electronic component according to claim 8 , wherein the electronic component element is a laminated ceramic capacitor. 11. The method for manufacturing an electronic component according to claim 8 , wherein the first Sn plating film has a Sn polycrystalline structure. 12. The method for manufacturing an electronic component according to claim 11 , wherein, the Sn—Ni alloy flakes are at Sn crystal grain boundaries of the first Sn plating film. 13. The method for manufacturing an electronic component according to claim 12 , wherein the Sn—Ni alloy flakes are within the Sn crystal grains in the first Sn plating film. 14. The method for manufacturing an electronic component according to claim 1 , wherein the Sn—Ni alloy flakes contain therein 75 to 85 atm % of Sn.