The rapid growth of industries and urbanization has led to environmental damage such as noise pollution due to economic development. In recent years, noise pollution has become detrimental to human health, and thus not only has caused public awareness, but also has led to introduction of legislations and strict rules for control of sound and noise pollution. In general, the collision of sound waves with objects leads to absorption, transmission and reflection of the of the incident sound. Undesirable sound may be fully absorbed and thus there would not be any transmitted or relected components. Many studies have been conducted on fabrication of sound absorbers with the aim of absorbing sound waves. It should be noted that the sound reflection phenomenon is not always unpleasant, and in some applications, such as theater, sports stadiums and street plays, reflection in fact improves the quality of the sound. So far, a lot of research has been done on the elaboration of the elastic plate and heavy sound reflectors. It seems that the use of textiles as sound reflectors has so far been rare. This study intends to reduce the cost of sound control by using textiles as sound reflectors, while overcoming the physical and mechanical disadvantages of the heavy conventional plates that have been in use for this purpose. Thus, composite structures consisting of sections, a dense part i.e. tent and a second part containing woven fabrics compose of two joined components metal-clad metal. The effect of pricipale factors such as the thickness of the metal component, the number of strands of the brain, the angle of positioning Double-walled fabric, dual-cloth texture design and number of layers used in compound composite structure on sound reflection were evalulated using dipolephotometric impedance tube method. The results showed that the sound reflection coefficient enhances not only by increase in the number of fabric layers containing the metal component but also by the density of the fabric part containing the metal component. As far as the effect of weave desgin of metal-containing fabrics is concerned, it was found that the use of Satin, panama, and plain weaves resulted in higher reflection coefficient in the stated manner due to the higher length of the float. It was also observed that increase in the fabric angle containing metal component with the dense tent fabric results in higher sound reflection by the non-woven fabrics.