Ink-jet image forming method and ink-jet ink set

The invention claimed is: 1. An ink-jet ink set comprising: (1) chromatic ink containing an actinic energy radiation curable composition, a gelling agent with which a thermoreversible gel is formed, and a colorant; and (2) colorless ink containing no colorant but an actinic energy radiation curable composition and a gelling agent with which the thermoreversible gel is formed, wherein a gelation temperature of the chromatic ink is higher than that of a gelation temperature of the colorless ink. 2. The ink-jet ink set of claim 1 , wherein the actinic energy radiation curable composition contained by each of the chromatic ink and the colorless ink comprises a radically polymerizable compound. 3. The ink-jet ink set of claim 1 , wherein the actinic energy radiation curable composition contained by each of the chromatic ink and the colorless ink comprises a cationically polymerizable compound. 4. An ink-jet image forming method employing the ink-jet ink set of claim 1 , comprising the steps of: providing the chromatic ink on a substrate; subsequently providing the colorless ink on the substrate and/or the chromatic ink, followed by heating applied thereto; and subsequently exposing the resulting comprising the chromatic ink and the colorless ink to actinic energy radiation. 5. The ink-jet image forming method of claim 4 , wherein a temperature of the heating is 50-200° C. 6. The ink-jet image forming method of claim 4 , wherein the colorless ink is provided by evenly or reversely imagewise on the substrate. 7. The ink-jet image forming method of claim 4 , wherein the colorless ink when the ink is heated at a temperature of at least 10° C. higher than a melting temperature of the gelling agent. 8. The ink-jet image forming method of claim 4 , wherein the temperature of the heating is 50-200° C. 9. The ink-jet ink set of claim 1 , wherein the gelling agent of the chromatic ink and/or the gelling agent of the chromatic ink is not radiation curable. 10. The ink-jet ink set of claim 1 , wherein the at least one non-radiation curable gelling agent is selected from the group consisting of: polyethylene wax, polypropylene wax, polystyrene wax, stearone, stearic acid, glycerin monastearate, glycerin monolaurate, glycerin mono12-hydroxystearate, an octadocosanoic acid, monoglyceride, stearyl stearate, stearyl alcohol, a behenic acid, lipophilic smectite, a rosin-based oil gelling agent, behenyl alcohol, glyceryl behenate, inulin stearate, dextrin palmitate, N, N-methylenebisoctadecanamide, N-stearylstearic acid amide, oleylpalmitic acid amide, dextrin palmitate, N-lauroyl-L-dibutylglutaminamide, N-2ethylhexanoyl-L-dibutylglutaminamide, 1,3:2,4-bis-O-benzylidene-D-glucitol, 1,3:2,4-bis-O-(4-methylbenzylidene)-D-sorbitol, straight-chain alcohol, a straight-chain carboxylic acid, a urethane resin, compounds represented by the following compounds OG-1, OG-2, OG-3, OG-4, OG-5, OG-6, OG-7, OG-8, OG-9, OG-10, OG-11, OG-12, OG-13, OG-14 and OG-15 11. The ink-jet image forming method of claim 4 , wherein the colorless ink is provided evenly or reversely imagewise on the substrate. 12. The ink-jet ink set of claim 1 , wherein the gelling agent contained in the chromatic ink has a higher melting temperature than that of the gelling agent contained in the colorless ink.