This paper presents a method for fabricating a tri-dimensional reticulated porous material (TRPM) made of copper fibers and an experimental study of the acoustic performance of the TRPM. Continuous copper fibers are produced through a multi-tooth tool, and sintered using a low-temperature solid-phase sintering (LSS) technique to fabricate the TRPM. The micro morphology of fiber surface and internal structure of the TRPM are investigated. The results show that a rock-like and fine-grained morphology on the fiber surface is achieved, and the complex micro-pores in the porous material give a large specific surface area. The sound absorption coefficient and transmission loss of the TRPM are also investigated under different bulk densities and porosity characteristics.