Author(s)

Felix Sotohou^1*, James W. Mwangi², James M. Mutua³, Erick K. Ronoh⁴

¹Pan African University Institute for Basic Sciences Technology and Innovation, Juja, Kenya.
²Department of Mechatronic Engineering, Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya.
³Department of Mechanical Engineering, Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya.
⁴Department of Agricultural and Biosystems Engineering, Jomo Kenyatta University of Agriculture and Technology, Juja, Kenya.

Approximately 450 million tons of plastic and agricultural waste are produced each year in the world. Only a small portion of this plastic waste is recycled, and a small portion of this agricultural waste is used as fuel or fertilizer, and the rest of this waste is left in the environment or is burned, resulting in environmental and air pollution. For proper disposal, plastic and agricultural waste can be used in the manufacture of composites as raw materials. In this study, we had evaluated the use of bean pod powder (BPp) was used as natural reinforcing filler in recycled polypropylene (rPP) based composites. BPp/rPP composite filaments were developed using the extrusion method and the samples were printed by Fused Filament Fabrication (FFF). Composites with rPP matrix containing different weight fractions of BPp (5%, 10% and 15%) were fabricated to observe and compare the mechanical properties (tensile, flexural, and compressive strength) of the filament composites. In addition, the filament surface was analyzed for roughness and particle size of bean pod powder. The results established that BPp/rPP composites exhibited better tensile, flexural, and compressive strength than rPP and pure PP. By adding 5 wt% BPp, the tensile strength of rPP increased from 20.4 MPa to 22.8 MPa. The highest flexural strength (15.05 MPa) was obtained at 5 wt% BPp among all composites and the highest compressive strength (24.5 MPa), was obtained at 10 wt% BPp. Therefore, it can be concluded that by carefully selecting the ratio of BPp to bean pod powder, it is therefore possible to positively influence the mechanical properties of the resulting composite.

Pollution, Composite, Fused Filament Fabrication, Mechanical Properties

Sotohou, F. , Mwangi, J. , Mutua, J. and Ronoh, E. (2023) Development and Evaluation of Recycled Polypropylene and Bean Pod Powder Composite Biomaterial for Fused Filament Fabrication. Advances in Materials Physics and Chemistry, 13, 31-48. doi: 10.4236/ampc.2023.133003.