The experimental and numerical study of fracture behavior of 58s bioactive glass/polysulfone composite using the extended finite elements method

Abstract: The composites derived from the bioactive glasses, such as BG/polysulfone, have better mechanical properties and their characteristics are closer to human bone. In this paper, the fracture behavior of 58s BG/PSF composite has been investigated. The extended finite elements method (XFEM) was used as an alternative numerical method to the FEM, in order to model the fracture behavior of 58s BG/PSF composite with greater accuracy. The XFEM doesn’t require remeshing at each step and achieves the precise approximati… Show more

“…As a calcium‐phosphate‐based ceramic, HA (Ca 10 (PO 4 ) 6 (OH) 2 ) is the principal mineral part of the dental enamel and the hard tissue on the outside layer of human teeth and bone 30–33 . BG is the first synthetic solid to bond to natural bone 10,34,35 so in recent years, substituted BGs have become fascinated by scientists for their multifunctional capabilities due to replacing components. Many elements and combinations have been substituted in BGs for different applications, for example, suitable for dental and bone implants, 36 helpful for strengthening the mechanical properties, 37–39 exert a stimulatory effect on the osteoblast proliferation, 40 and release of proper ions that can act as antibacterial properties to the biomaterial 41,42 .…”

Characterization, in vitro bioactivity and biological studies of sol‐gel‐derived TiO₂ substituted 58S bioactive glass

“…As a calcium‐phosphate‐based ceramic, HA (Ca 10 (PO 4 ) 6 (OH) 2 ) is the principal mineral part of the dental enamel and the hard tissue on the outside layer of human teeth and bone 30–33 . BG is the first synthetic solid to bond to natural bone 10,34,35 so in recent years, substituted BGs have become fascinated by scientists for their multifunctional capabilities due to replacing components. Many elements and combinations have been substituted in BGs for different applications, for example, suitable for dental and bone implants, 36 helpful for strengthening the mechanical properties, 37–39 exert a stimulatory effect on the osteoblast proliferation, 40 and release of proper ions that can act as antibacterial properties to the biomaterial 41,42 .…”

Characterization, in vitro bioactivity and biological studies of sol‐gel‐derived TiO₂ substituted 58S bioactive glass

“…This technology has introduced numerous biomaterials suitable for bones repair and replacement . Among these materials, a subset of amorphous silicate composites, namely bioactive glasses (BGs), has played a significant role in establishing a platform of bone repair . BGs are commonly synthesized by sol‐gel technique as a reliable substitute for traditional melt quenching method.…”

Novel antibacterial Cu/Mg‐substituted 58S‐bioglass: Synthesis, characterization and investigation of in vitro bioactivity

Nonlinear Viscoelastic Modeling of Synthesized Silicate-Based Bioactive Glass/Polysulfone Composite: Theory and Medical Applications