Pressure resistant and corrosion resistant copper alloy, brazed structure, and method of manufacturing brazed structure

The invention claimed is: 1. A pressure resistant and corrosion resistant copper alloy brazed to another material at 700° C. or higher, wherein the copper alloy has an alloy composition comprising: 73.0 mass % to 79.5 mass % of Cu; and 2.5 mass % to 4.0 mass % of Si, with a remainder comprising Zn and inevitable impurities, wherein the content of Cu [Cu] mass % and the content of Si [Si] mass % have a relationship of 62.0≤[Cu]−3.6×[Si]≤67.5, and a metallic structure at a brazed portion of the copper alloy includes at least a κ phase in an α phase matrix, and an area fraction of the α phase “α”%, an area fraction of a β phase “β”%, an area fraction of a γ phase “γ”%, an area fraction of the κ phase “κ”%, and an area fraction of a μ phase “μ”% satisfy the relationships 30≤“α”≤84, 15≤“κ”≤68, “α”+“κ”≥92, 0.2≤“κ”/“α”≤2, 0≤“β”≤3, 0≤“μ”≤5, 0≤“β”+“μ”≤6, 0≤“γ”≤7, and 0≤“β”+“μ”+“γ”≤8. 2. The pressure resistant and corrosion resistant copper alloy according to claim 1 , further comprising at least one additional component selected from the group consisting of 0.015 mass % to 0.2 mass % of P, 0.015 mass % to 0.2 mass % of Sb, 0.015 mass % to 0.15 mass % of As, 0.03 mass % to 1.0 mass % of Sn, and 0.03 mass % to 1.5 mass % of Al, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, and the content of Al [Al] mass % satisfy the relationship of 62.0≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.9×[Al]≤67.5. 3. The pressure resistant and corrosion resistant copper alloy according to claim 1 , further comprising at least one additional component selected from the group consisting of 0.015 mass % to 0.2 mass % of P, 0.015 mass % to 0.2 mass % of Sb, and 0.015 mass % to 0.15 mass % of As, and at least one additional component selected from the group consisting of 0.3 mass % to 1.0 mass % of Sn and 0.45 mass % to 1.2 mass % of Al, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, and the content of Al [Al] mass % satisfy the relationship of 63.5≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.9×[Al]≤67.5. 4. The pressure resistant and corrosion resistant copper alloy according to claim 1 , further comprising: at least one additional component selected from the group consisting of 0.015 mass % to 0.2 mass % of P, 0.015 mass % to 0.2 mass % of Sb, and 0.015 mass % to 0.15 mass % of As, and at least one additional component selected from the group consisting of 0.3 mass % to 1.0 mass % of Sn and 0.45 mass % to 1.2 mass % of Al, and at least one additional component selected from the group consisting of 0.003 mass % to 0.25 mass % of Pb and 0.003 mass % to 0.30 mass % of Bi, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, the content of Al [Al] mass %, the content of Pb [Pb] mass %, and the content of Bi [Bi] mass % satisfy the relationship of 62.0≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.9×[Al]+0.5×[Pb]+0.5×[Bi]≤67.5. 5. The pressure resistant and corrosion resistant copper alloy according to claim 1 , further comprising: at least one additional component selected from the group consisting of 0.015 mass % to 0.2 mass % of P, 0.015 mass % to 0.2 mass % of Sb, and 0.015 mass % to 0.15 mass % of As; at least one additional component selected from the group consisting of 0.3 mass % to 1.0 mass % of Sn and 0.45 mass % to 1.2 mass % of Al, and at least one additional component selected from the group consisting of 0.003 mass % to 0.25 mass % of Pb and 0.003 mass % to 0.30 mass % of Bi; and at least one additional component selected from the group consisting of 0.05 mass % to 2.0 mass % of Mn, 0.05 mass % to 2.0 mass % of Ni, 0.003 mass % to 0.3 mass % of Ti, 0.001 mass % to 0.1 mass % of B, and 0.0005 mass % to 0.03 mass % of Zr, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, the content of Al [Al] mass %, the content of Pb [Pb] mass %, the content of Bi [Bi] mass %, the content of Mn [Mn] mass %, the content of Ni [Ni] mass %, the content of Ti [Ti] mass %, the content of B [B] mass %, and the content of Zr [Zr] mass % satisfy the relationship of 62.0≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.94[Al]+0.5×[Pb]+0.5×[Bi]+2×[Mn]+1.7×[Ni]+1×[Ti]+2×[B]+2×[Zr]≤67.5. 6. The pressure resistant and corrosion resistant copper alloy according to claim 1 , wherein a material strength of the copper alloy is 400 N/mm 2 or more in terms of tensile strength or 150 N/mm 2 or more in terms of proof stress, and a maximum dezincification corrosion depth of the copper alloy is 200 μm or less in the ISO6509 test. 7. A brazed structure comprising: (a) the pressure resistant and corrosion resistant copper alloy according to claim 1 ; (b) an other material brazed to the copper alloy; and (c) a brazing filler metal that brazes the copper alloy and the other material. 8. The pressure resistant and corrosion resistant copper alloy according to claim 2 , further comprising at least one additional component selected from the group consisting of 0.003 mass % to 0.25 mass % of Pb and 0.003 mass % to 0.30 mass % of Bi, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, the content of Al [Al] mass %, the content of Pb [Pb] mass %, and the content of Bi [Bi] mass % satisfy the relationship of 62.0≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.9×[Al]+0.5×[Pb]+0.5×[Bi]≤67.5. 9. The pressure resistant and corrosion resistant copper alloy according to claim 2 , further comprising at least one additional component selected from the group consisting of 0.05 mass % to 2.0 mass % of Mn, 0.05 mass % to 2.0 mass % of Ni, 0.003 mass % to 0.3 mass % of Ti, 0.001 mass % to 0.1 mass % of B, and 0.0005 mass % to 0.03 mass % of Zr, wherein the content of Cu [Cu] mass %, the content of Si [Si] mass %, the content of P [P] mass %, the content of Sb [Sb] mass %, the content of As [As] mass %, the content of Sn [Sn] mass %, the content of Al [Al] mass %, the content of Pb [Pb] mass %, the content of Bi [Bi] mass %, the content of Mn [Mn] mass %, the content of Ni [Ni] mass %, the content of Ti [Ti] mass %, the content of B [B] mass %, and the content of Zr [Zr] mass % satisfy the relationship of 62.0≤[Cu]−3.6×[Si]−3×[P]−0.3×[Sb]+0.5×[As]−1×[Sn]−1.9×[Al]+0.5×[Pb]+0.5×[Bi]+2×[Mn]+1.7×[Ni]+1×[Ti]+2×[B]+2×[Zr]≤67.5. 10. The pressure resistant and corrosion resistant copper alloy according to claim 2 , wherein a material strength of the copper alloy is 400 N/mm 2 or more in terms of tensile strength or 150 N/mm 2 or more in terms of proof stress, and a maximum dezincification corrosion depth of the copper alloy is 200 μm or less in the ISO 6509 test. 11. The pressure resistant and corrosion resistant copper alloy according to claim 3 , wherein a material strength of the copper alloy is 400 N/mm 2 or more in terms of tensile strength or 150 N/mm 2 or more in terms of proof stress, and a maximum dezincification corrosion depth of the copper alloy is 200 μm or less in the ISO 6509 test. 12. The pressure resistant and corrosion resistant copper alloy according to claim 4 , wherein a material strength of the copper a