 Magnesium, MG, Slash polylactic acid, PLA, composites are promising materials for bone regeneration and tissue engineering applications due to their biocompatibility, osteoconductivity, and ease of processing into various shapes and structures. The addition of MG significantly impacts PLA's thermal and structural properties, increasing its degradation rate. XRD was used to determine the degree of crystallinity in the PLA Slash MG composite, which provides insight into its thermal stability and degradation behavior. The best ordered honeycomb structure was observed with 5 WT% MG particles, affecting the mechanical, biological, and heat Slash mass transfer properties of the composites. Preliminary 3D printing experiments were successful in resulting in dimensionally and structurally integral scaffold samples. But some research is needed to improve the rheological properties of the ink for DIW3D printing. This article was authored by Fawad Ali, A. N. S. L. Rashid, Sumama Nathana Calva, and others. We are article.tv. Links in the description below.