In this study, wood of Cryptomeria japonica was liquefied with phenol as a solvent and the epoxy resin was synthesized from epichlorohydrin and bisphenol A. The epoxy resin was mixed with phenol-liquefied wood by the weight ratio of 100/0, 100/10, 100/20 and 100/30, and the triethylene tetramine and hexamethyldisiloxane were added as the cross-linking hardener and foaming agent, respectively, to made epoxy foams. The results showed that these blended resins took an exothermic reaction under room temperature and formed epoxy foams by foaming and curing reaction. The foams made from pure epoxy resin as a raw material had the density lower than 0.21 g/cm^3, but it increased with the amount of liquefied wood added. DSC analysis showed that all of the foams had completely cured during the period of foaming process. The foams showed a phase-transferring phenomenon during the period of heating. The glass transition temperature (Tg) of epoxy resin foams appeared at about 120℃ but it shifted to lower temperature when blended with liquefied wood. However, increasing the foaming agent, the foams had a higher Tg temperature. TGA analysis showed that the main thermo-degradation of various epoxy foams occurred at 250-400℃. The foams made from epoxy resin that blended with liquefied wood had a higher char yield as heating to 700℃.