Capability Behaviour of POFA Composite Filament for 3D Printing User

Darsani, A.; Marwah, Omar Mohd Faizan; Sa’ude, Nasuha; Adzila, Sharifah; Ibrahim, Mustaffa; Sharif, Shahirah Aida Mohd

doi:10.1007/978-981-15-9505-9_55

Cited by 1 publication

(1 citation statement)

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“…Because of the above two points, Darsani et al grafted PP with maleic anhydride (MA) and found that it could improve the surface adhesion property of PP. At the same time, the blending of Palm oil fuel ash (POFA) and PP increased the adhesion of polymer materials and improved their shrinkage during printing [ 91 ].…”

Section: Polymer Materials Of 3d-printed Bone Scaffoldsmentioning

confidence: 99%

Unraveling of Advances in 3D-Printed Polymer-Based Bone Scaffolds

et al. 2022

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The repair of large-area irregular bone defects is one of the complex problems in orthopedic clinical treatment. The bone repair scaffolds currently studied include electrospun membrane, hydrogel, bone cement, 3D printed bone tissue scaffolds, etc., among which 3D printed polymer-based scaffolds Bone scaffolds are the most promising for clinical applications. This is because 3D printing is modeled based on the im-aging results of actual bone defects so that the printed scaffolds can perfectly fit the bone defect, and the printed components can be adjusted to promote Osteogenesis. This review introduces a variety of 3D printing technologies and bone healing processes, reviews previous studies on the characteristics of commonly used natural or synthetic polymers, and clinical applications of 3D printed bone tissue scaffolds, analyzes and elaborates the characteristics of ideal bone tissue scaffolds, from t he progress of 3D printing bone tissue scaffolds were summarized in many aspects. The challenges and potential prospects in this direction were discussed.

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Section: Polymer Materials Of 3d-printed Bone Scaffoldsmentioning

confidence: 99%