Foaming method

1 . A foaming method, comprising: a step (X) of mixing a foamable composition containing a foaming agent (A) having a time required for a reduction in dynamic surface tension thereof to start of 60,000 ms or less, which is measured by the following measurement method 1, and an organic solvent (B), and a gas, and foaming the composition; and a step (Y) of reducing a size of foam with a porous body: Measurement Method 1: the foaming agent (A) is dissolved in the organic solvent (B) to prepare a solution of the foaming agent (A) having a concentration of 0.5 mass %; then, a dynamic surface tension of the solution of the foaming agent (A) and that of the organic solvent (B) alone at a bubble production time of from 10 ms to 60,000 ms and 25° C. are each measured by a maximum bubble pressure method; and then, a first time at which a value obtained by subtracting the dynamic surface tension of the solution of the foaming agent (A) from the dynamic surface tension of the organic solvent (B) alone becomes 0.3 mN/m or more is defined as the time (ms) required for the reduction in dynamic surface tension to start. 2 . The foaming method according to claim 1 , wherein an amount of a reduction in static surface tension of the foaming agent (A) measured by the following measurement method 2 is 0.5 mN/m or more: Measurement Method 2: the foaming agent (A) is dissolved in the organic solvent (B) to prepare a solution of the foaming agent (A) having a concentration of 0.5 mass %; then, a static surface tension of the solution of the foaming agent (A) and that of the organic solvent (B) alone at 25° C. are each measured by a Du Nouy method through lifting of a ring at a speed of 1 mm/min; and then, a value obtained by subtracting the static surface tension of the solution of the foaming agent (A) from the static surface tension of the organic solvent (B) alone is defined as the amount (mN/m) of the reduction in static surface tension. 3 . The foaming method according to claim 1 , wherein the foaming agent (A) contains a silicone (A1). 4 . The foaming method according to claim 1 , wherein the organic solvent (B) contains at least one kind of water-immiscible solvent (B1) selected from the group consisting of: a hydrocarbon oil; an ester oil; and a fatty acid. 5 . The foaming method according to claim 1 , wherein a shear viscosity of the foamable composition at 25° C. and a shear rate of 500 s −1 is 22.0 mPa·s or less. 6 . The foaming method according to claim 1 , wherein the porous body has an opening ratio of 30% or more. 7 . The foaming method according to claim 1 , wherein the porous body has an aperture diameter of 70 μm or more. 8 . The foaming method according to claim 1 , wherein a content of water in the foamable composition is less than 50 mass %. 9 . An article, comprising: a foam discharge container; and a foamable composition in the foam discharge container, wherein the foamable composition contains a foaming agent (A) having a time required for a reduction in dynamic surface tension thereof to start of 60,000 ms or less, which is measured by the following measurement method 1, and an organic solvent (B), and wherein a foam discharge mechanism of the foam discharge container includes a porous body: Measurement Method 1: the foaming agent (A) is dissolved in the organic solvent (B) to prepare a solution of the foaming agent (A) having a concentration of 0.5 mass %; then, a dynamic surface tension of the solution of the foaming agent (A) and that of the organic solvent (B) alone at a bubble production time of from 10 ms to 60,000 ms and 25° C. are each measured by a maximum bubble pressure method; and then, a first time at which a value obtained by subtracting the dynamic surface tension of the solution of the foaming agent (A) from the dynamic surface tension of the organic solvent (B) alone becomes 0.3 mN/m or more is defined as the time (ms) required for the reduction in dynamic surface tension to start. 10 . The article according to claim 9 , wherein an amount of a reduction in static surface tension of the foaming agent (A) measured by the following measurement method 2 is 0.5 mN/m or more: Measurement Method 2: the foaming agent (A) is dissolved in the organic solvent (B) to prepare a solution of the foaming agent (A) having a concentration of 0.5 mass %; then, a static surface tension of the solution of the foaming agent (A) and that of the organic solvent (B) alone at 25° C. are each measured by a Du Nouy method through lifting of a ring at a speed of 1 mm/min; and then, a value obtained by subtracting the static surface tension of the solution of the foaming agent (A) from the static surface tension of the organic solvent (B) alone is defined as the amount (mN/m) of the reduction in static surface tension. 11 . The article according to claim 9 , wherein the foaming agent (A) contains a silicone (A1). 12 . The article according to claim 9 , wherein the organic solvent (B) contains at least one kind of water-immiscible solvent (B1) selected from the group consisting of: a hydrocarbon oil; an ester oil; and a fatty acid. 13 . The article according to claim 9 , wherein a shear viscosity of the foamable composition at 25° C. and a shear rate of 500 s −1 is 22.0 mPa·s or less. 14 . The article according to claim 9 , wherein a content of water in the foamable composition is less than 50 mass %. 15 . The article according to claim 9 , wherein the foam discharge container is a non-gas type foam discharge container. 16 . The article according to claim 9 , wherein the porous body has an opening ratio of 30% or more. 17 . The article according to claim 9 , wherein the foam discharge container is a pump foamer container, a squeeze foamer container, or a trigger spray container. 18 . The foaming method according to claim 1 , wherein a shear viscosity of the foamable composition at 25° C. and a shear rate of 500 s −1 is 2.5 mPa·s or more and 14.0 mPa·s or less. 19 . The foaming method according to claim 1 , wherein the organic solvent (B) contains hydrogenated polyisobutene having 14 to 18 carbon atoms.