In this study, the influence of the molar ratio of formaldehyde to phenol (F/P), i.e. 0.65/1, 0.75/1 and 0.85/1, on the properties of Novolak-type phenol-formaldehyde resins (PF) were investigated. In addition, the properties of molding plates made with mixing various Novolak-type PF resins with wood powder, hexamethylenetetramine and zinc stearate were also demonstrated. The results show that Novolak-type PF resins prepared with higher F/P molar ratio had larger average molecular weight and higher melting point. DSC thermal analysis shows that Novolak-type PF resins had the characteristic of thermo-setting when blended with hexamethylenetetramine. It had the initial setting temperature at about 130℃. Novolak type PF resin that prepared with lower F/P molar ratio had larger reaction heat released during thermosetting. Molding plates made with Novolak-type resins by hot-pressing had good dimensional stability. Increasing the F/P molar ratio would decrease the water adsorption percentage and increase the internal bonding strength and bending strength of molding plates. TGA shows that the thermal degradation of molding plates mainly occurred at 250~400℃.