Flux-cored wire and welding method

The invention claimed is: 1. A flux-cored wire comprising a flux and a hoop, the flux forming a core, the hoop forming a sheath, wherein: the flux comprises strong deoxidizing metal elements (flux) and at least one fluoride powder, and the strong deoxidizing metal elements (flux) include Mg and Al, a total content of the strong deoxidizing metal elements (flux) is 15 to 35 mass % relative to a total mass of the flux, at least a portion of the Mg and the Al of the strong deoxidizing metal elements (flux) is present as a strong deoxidizing metal powder, and the strong deoxidizing metal powder is at least one of a metal powder or an alloy powder, 60 mass % or more of the strong deoxidizing metal powder has a particle size of less than or equal to 150 μm, a total content of the at least one fluoride powder is 10 to 45 mass % relative to the total mass of the flux, 60 mass % or more of the at least one fluoride powder has a particle size of less than or equal to 75 μm, the flux is present in an amount of 10 to 30 mass %, relative to a total mass of the flux-cored wire, and the flux-cored wire comprises, relative to the total mass of the flux-cored wire: C: 0.5 mass % or less; Si: 0.05 to 1.0 mass %; Al: 1.0 to 3.5 mass %; Mn: 1.0 to 3.0 mass %; Mg: 0.3 to 0.9 mass %; a total of at least one fluoride, in an amount F calculated in terms of fluorine: 0.30 to 1.20 mass %; and a total of strong deoxidizing metal elements (wire) : 2.2 mass % or greater. 2. The flux-cored wire according to claim 1 , wherein the flux-cored wire further comprises, relative to the total mass of the flux-cored wire: Ni: 15 mass % or less; Mo: 5.0 mass % or less; W: 3.0 mass % or less; Nb: 5.0 mass % or less; V: 5.0 mass % or less; Cr: 30 mass % or less; Ti: 3.0 mass % or less; Zr: 2.0 mass % or less; O: 0.05 mass % or less; N: 0.05 mass % or less; S: 0.05 mass % or less; P: 0.05 mass % or less; B: 0.05 mass % or less; Cu: 5.0 mass % or less; Ba: 5.0 mass % or less; a total of at least one alkali metal element: 3.0 mass % or less; Ca: 3.0 mass % or less; a total of at least one rare earth metal: 0.5 mass % or less; and Fe: 40 mass % or greater. 3. The flux-cored wire according to claim 1 , wherein the fluoride powder is at least one powder of a compound selected from the group consisting of BaF 2 , SrF 2 , Na 3 AlF 6 , NaF, MgF 2 , and CaF 2 . 4. The flux-cored wire according to claim 2 , wherein the fluoride powder is at least one powder of a compound selected from the group consisting of BaF 2 , SrF 2 , Na 3 AlF 6 , NaF, MgF 2 , and CaF 2 . 5. The flux-cored wire according to claim 1 , wherein a water content (WC) is 0.010 to 0.100 mass % relative to the total mass of the flux-cored wire, and the water content (WC) and the total content of the strong deoxidizing metal elements (wire) satisfy a relationship of 105≤(the total content of the strong deoxidizing metal elements (wire) /WC)≤170. 6. The flux-cored wire according to claim 1 , wherein the content of Al and the content of Mg, relative to the total mass of the flux-cored wire, satisfy a relationship of 0.35≤(2×Mg/0.6×Al≤1.50. 7. The flux-cored wire according to claim 1 , wherein the strong deoxidizing metal elements (flux) further comprise at least one element selected from the group consisting of Zr, Ti, and Ca, and wherein the contents of Mg, Al, Zr, Ti, and Ca, relative to the total mass of the flux-cored wire, satisfy a relationship of 5≤{(Mg+Al/(Zr+Ti+Ca)}≤70. 8. The flux-cored wire according to claim 1 , wherein the flux further comprises Ni in the form of at least one selected from the group consisting of elemental Ni, Cu—Ni, Fe—Ni, and Ni—Mg. 9. A gas shielded arc welding method, comprising welding with the flux-cored wire according to claim 1 at a welding current of greater than 200 A in a shielding gas atmosphere. 10. The gas shielded arc welding method according to claim 9 , wherein the welding is performed in a welding position, and the welding position is at least one of an overhead position or a vertical position. 11. The gas shielded arc welding method according to claim 9 , wherein the shielding gas comprises 70 vol % or more Ar. 12. The gas shielded arc welding method according to claim 9 , wherein the shielding gas comprises 70 vol % or more CO 2 .