Ferritic stainless steel with excellent ridging resistance

The invention claimed is: 1. Ferritic stainless steel with excellent ridging resistance having a composition comprising, by mass %, C: 0.001 to 0.010%, Si: 0.30% or less, Mn: 0.30% or less, P: 0.040% or less, S: 0.0100% or less, Cr: 10.0 to 21.0%, Al: 0.010 to 0.200%, Ti: 0.015 to 0.300%, O: 0.0005 to 0.0050%, N: 0.001 to 0.020%, Ca: 0.0015% or less, and Mg: 0.0003% to 0.0030% and having a balance of Fe and impurities, wherein a number ratio of a number of complex inclusions (B) to a number of complex inclusions (A) satisfies Formula 4, wherein: complex inclusions (A) are defined as complex inclusions including oxides, and having a long axis of 1 μm or more, and complex inclusions (B) are defined as complex inclusions (A) which further satisfy Formula 1, Formula 2, and Formula 3, wherein a number density of complex inclusions (B) having a long axis of 2 μm or more and 15 μm or less is 2/mm 2 or more and 20/mm 2 or less; and wherein: Al 2 O 3 /MgO≤4;  Formula 1: CaO≤20%;  Formula 2: Al 2 O 3 +MgO≥75%; and  Formula 3: Number of complex inclusions ( B )/Number of complex inclusions ( A )≥0.70;  Formula 4: where, in Formula 1, Formula 2, and Formula 3, Al 2 O 3 , MgO, and CaO indicate the respective mass % of each component in the oxides. 2. Ferritic stainless steel with excellent ridging resistance according to claim 1 , further containing, by mass %, one or more of B: 0.0020% or less, Nb: 0.60% or less, Mo: 2.0% or less, Ni: 2.0% or less, Cu: 2.0% or less, Sn: 0.50% or less V: 0.200% or less, Sb: 0.30% or less, W: 1.00% or less, Co: 1.00% or less, Zr: 0.0050% or less, REM: 0.0100% or less, Ta: 0.10% or less, and Ga: 0.0100% or less. 3. Ferritic stainless steel with excellent ridging resistance according to claim 2 , wherein said complex inclusions (A) contain TiN and said chemical composition satisfies Formula 5; and wherein: 2.44×[% Ti]×[% N]×{[% Si]+0.05×([% Al]−[% Mo])−0.01×[% Cr]+0.35}≥0.0008  Formula 5: where, [% Ti], [% N], [% Si], [% Al], [% Mo], and [% Cr] show the mass % of the respective elements in the steel. 4. Ferritic stainless steel with excellent ridging resistance according to claim 3 , wherein said chemical composition satisfies Formula 6; and wherein: 250×[% C]+2×[% Si]+[% Mn]+50×[% P]+50×[% S]+0.06×[% Cr]+60×[% Ti]+54×[% Nb]+100×[% N]+13×[% Cu]≥36  Formula 6: where, [% C], [% Si], [% Mn], [% P], [% S], [% Cr], [% Ti], [% Nb], [% N], and [% Cu] show the mass % of the respective elements in the steel; when not contained, 0 is entered. 5. Ferritic stainless steel with excellent ridging resistance according to claim 2 , wherein said chemical composition satisfies Formula 6; and wherein: 250×[% C]+2×[% Si]+[% Mn]+50×[% P]+50×[% S]+0.06×[% Cr]+60×[% Ti]+54×[% Nb]+100×[% N]+13×[% Cu]≥36  Formula 6: where, [% C], [% Si], [% Mn], [% P], [% S], [% Cr], [% Ti], [% Nb], [% N], and [% Cu] show the mass % of the respective elements in the steel; when not contained, 0 is entered. 6. Ferritic stainless steel with excellent ridging resistance according to claim 1 , wherein said complex inclusions (A) contain TiN and said chemical composition satisfies Formula 5; and wherein: 2.44×[% Ti]×[% N]×{[% Si]+0.05×([% Al]−[% Mo])−0.01×[% Cr]+0.35}≥0.0008  Formula 5: where, [% Ti], [% N], [% Si], [% Al], [% Mo], and [% Cr] show the mass % of the respective elements in the steel. 7. Ferritic stainless steel with excellent ridging resistance according to claim 6 , wherein said chemical composition satisfies Formula 6; and wherein: 250×[% C]+2×[% Si]+[% Mn]+50×[% P]+50×[% S]+0.06×[% Cr]+60×[% Ti]+54×[% Nb]+100×[% N]+13×[% Cu]≥36  Formula 6: where, [% C], [% Si], [% Mn], [% P], [% S], [% Cr], [% Ti], [% Nb], [% N], and [% Cu] show the mass % of the respective elements in the steel; when not contained, 0 is entered. 8. Ferritic stainless steel with excellent ridging resistance according to claim 1 , wherein said chemical composition satisfies Formula 6; and wherein: 250×[% C]+2×[% Si]+[% Mn]+50×[% P]+50×[% S]+0.06×[% Cr]+60×[% Ti]+54×[% Nb]+100×[% N]+13×[% Cu]≥36  Formula 6: where, [% C], [% Si], [% Mn], [% P], [% S], [% Cr], [% Ti], [% Nb], [% N], and [% Cu] show the mass % of the respective elements in the steel; when not contained, 0 is entered.