Phyllostachys heterocycla (Moso bamboo), Denrdrocalamus latiflorus (Ma bamboo) and Phyllostachys makinoi (Makino bamboo) were liquefied in the mixture of polyethylene glycol/glycerol with H2SO4 as a catalyst. The liquefied bamboos were blended with three kinds of isocyanate, such as PMDI, Desmodur L and Desmodur N to prepare polyurethane resins (PU). The gelation time, mechanical properties of resin films and wood bonding strength of PU resins that prepared with different liquefied bamboos, isocyanates and NCO/(OH+COOH) molar ratios (R value) were investigated. The results show that PU resins prepared by mixing liquefied bamboo with isocyanate could set under room temperature. Among which, using Desmodur L as the raw material of isocyanate had a gelling speed more suitable for processing than others. However, the gelling speed for that used PMDI as the raw material was too fast to provide a sufficient pot-life. On the other hand, the gelling speed was too slow for that used Desmodur N as the raw material, but its gelation time could be shortened by adding a catalyst. The kind of isocyanate and the R value were the main factors that influenced the tensile properties of PU films. Using Desmodur L as the raw material formed films with the properties of hard and brittle, which had higher tensile strength and modulus but had lower breaking deformation. While used Desmodur N as the raw material, the films were more soft and toughness, which had low tensile strength but allowed a larger amount of deformation before the tensile damage occurred. The tensile strength, modulus and breaking deformation of films could be increased by increasing the R value during the preparation of PU resin. When these PU resins was applied as an adhesive for bonding wood, using Desmodur L as the raw material could provide a better bonding performance than that with Desmodur N.