Browsing by Author "Olawumi, M. A."

Now showing items 1-4 of 4

    • 3D printing of PEEK–cHAp scaffold for medical bone implant 

      Oladapo, B. I.; Zahedi, S. A.; Ismail, S. O.; Omigbodun, F. T.; Oluwole, B.; Olawumi, M. A.; Muhammad, M. A. (2020-10-21)
      The major drawback associated with PEEK implants is their biologically inert surface, which caused unsatisfactory cellular response and poor adhesion between the implants and surrounding soft tissues against proper bone ...

    • 4D Printing of Nanostructure Modified Shape Memory Polymer Composites 

      Oladapo, B. I.; Ismail, S. O.; Omigbodun, F. T.; Oluwole, B.; Olawumi, M. A.; Samad , Y. A. (Springer Nature, 2022-05-19)
      Four-dimensional (4D) printing and nanostructure have introduced the possibility of having systems for self-assembly, self-healing, and material properties changes. Layered printing allows creating compound and complex ...

    • Lattice design and 3D-printing of PEEK with Ca10(OH)(PO4)3 and in-vitro bio-composite for bone implant 

      Oladapo, B. I.; Ismail, S. O.; Oluwole, B.; Omigbodun, F. T.; Olawumi, M. A.; Muhammad, M. A. (2020-12-15)
      The addition of biomaterials such as Calcium hydroxyapatite (cHAp) and incorporation of porosity into poly-ether-ether-ketone (PEEK) are effective ways to improve bone-implant interfaces and osseointegration of PEEK ...

    • Nanostructural interface and strength of polymer composite scaffolds applied to intervertebral bone 

      Oladapo, Bankole I.; Ismail, Sikiru O.; Aderogba, A. V.; Omigbodun, F. T.; Olawumi, M. A.; Olawade, D. B. (2021-10-01)
      The pores of bone tissue that play an important part in bone regeneration can emulate the areas of nanoparticles from porous scaffolds. This work evaluated a novel designed and developed nanostructure surface of ...