Seawater-resistant stainless clad steel

The invention claimed is: 1. A manufacturing method for a seawater-resistant stainless clad steel comprising a cladding material made of stainless steel having a pitting index represented by Cr[mass %]+3.3Mo[mass %]+16N[mass %], of 35.0 or more and a microstructure in a surface portion thereof including, by area ratio, less than 2.0% of a σ phase, the method comprising the steps of: performing a mechanical treatment from at least one of grindstone polishing and belt polishing; and performing at least one of an electrolytic treatment in acid solutions or in neutral salt solutions, and a pickling treatment, to manufacture the stainless clad steel having dynamic friction coefficients in a rolling direction and in a direction at a right angle to the rolling direction, determined in accordance with JIS K 7125, both of 0.05 or less, wherein a crystal grain size of the cladding material determined in accordance with JIS G 0551 is 6.0 or more. 2. The method according to claim 1 , wherein the cladding material has a chemical composition including, by mass %, B:0.0010% to 0.0050%. 3. The method according to claim 2 , wherein the clad steel has at least one of: (iv) a pitting potential of 400 mV or more, (v) a critical pitting temperature of 40° C. or higher, and (vi) a critical crevice temperature of 20° C. or higher. 4. The method according to claim 1 , further comprising the steps of: bonding the cladding material and a base material to form a bonded material as a slab; reheating the slab at a temperature of 900° C. to 1100° C.; hot-rolling the reheated slab to form a hot-rolled plate; cooling the hot-rolled plate at a cooling rate of 0.2° C./s to 20° C./s without performing a normalizing treatment; and subsequently performing the mechanical treatment and performing at least one of the electrolytic treatment and the pickling treatment. 5. The method according to claim 1 , further comprising the steps of: bonding the cladding material and a base material to form a bonded material as a slab; reheating the slab at a temperature of 950° C. to 1150° C.; hot-rolling the reheated slab to form a hot-rolled plate; performing a normalizing treatment on the hot-rolled plate under the conditions of a heating temperature of 800° C. to 1000° C.; cooling the treated plate at a cooling rate of 1.0° C./s to 20° C./s; and subsequently performing the mechanical treatment and performing at least one of the electrolytic treatment and the pickling treatment. 6. The method according to claim 1 , wherein the stainless clad steel has a ratio of the dynamic friction coefficients (L/C) in the rolling direction (L) and in a direction (C) at a right angle to the rolling direction of 0.50 or more and 2.0 or less. 7. The method according to claim 1 , wherein the cladding material has a chemical composition including, by mass %, C: 0.03% or less, Si: 1.50% or less, Mn: 2.0% or less, P: 0.04% or less, S: 0.03% or less, Cu: 2.0% or less, Ni: 17.0% to 25.0%, Cr: 19.0% to 26.0%, Mo: 3.0% to 6.0%, and N: 0.10% to 0.35%. 8. The method according to claim 7 , wherein the clad steel has at least one of: (i) a pitting potential of 400 mV or more, (ii) a critical pitting temperature of 40° C. or higher, and (iii) a critical crevice temperature of 20° C. or higher. 9. The method according to claim 1 , wherein the clad steel has at least one of: (i) a pitting potential of 400 mV or more, (ii) a critical pitting temperature of 40° C. or higher, and (iii) a critical crevice temperature of 20° C. or higher.