This research investigated the development of biodegradable bioplastic as a possible replacement for petroleum-based plastics, which  constitute a serious environmental hazard. These hazards include but are not limited to flooding resulting from blocked sewage and  danger to aquatic life in marine environments. Solution casting method was used to blend inhomogeneous kaolinite clay nano-particles  with distilled water, starch, dilute acetic and nitric acids to produce different compositions of thermoplastic starch (TPS)/Clay composites  with clay reinforcements ranging from 2.5 to 10 wt.%. The composites were characterized using X-ray diffraction (XRD), and the  mechanical and water absorption properties were determined. The result revealed a 9-fold improvement in the tensile strength (0.72  MPa), flexural strength increased 5-fold (3.34 MPa), and hardness increased 2-fold (23.56 HVN) as well as a reduction in water absorption  by 3-fold (6.63%) when compared to the control. Furthermore, the 10 wt.% clay content composite showed the highest mechanical  properties. The significant improvement in the listed properties was attributed to a reduction in crystallinity and the formation of new  chemical bonds between the thermoplastic starch and the nano-clay. It was observed that the properties of the composites can be  further enhanced if a synchronized machine blender (such as an extruder) is employed.