In this study, China fir (Cunninghamia lanceolata) fibers obtained from Huisun Experimental Forest Station was used as raw materials to manufacture the environmental friendly wood/cement composite (WCC) to evaluate the effect of wood fiber content on the physical and mechanical properties of the WCCs. In physical properties, the results exhibited that, while the apparent density of the WCC decreased with increasing wood fiber content, the drying shrinkage increased. In addition, the WCC had lower mechanical strengths compared to the pure cement and a tendency to decrease with increasing fiber content. This phenomenon is related to fiber aggregate and pores resulted from the addition of wood fibers in the cement matrix. The force-stroke curve of the WCC with high wood fiber content showed strain softening, indicating that the WCC became a quasi-brittle material. However, the strain of the WCC under the ultimate load increased with increasing wood fiber, suggesting that the addition of wood fiber increased the strain under the ultimate load. On the other hand, compressive strength and density of the WCC was correlated exponentially. Furthermore, with increasing fiber content, the compressive failure mode of the WCC changed from longitudinal splitting failure to shear failure.