Comparison of the Properties and Bioactivity of Glass-Ceramic Nano Powder Produced by 2 Distinct Synthesis Methods (Sol-Gel and Crushing) and Their Bioactivity Fixation with SBF Body Simulant

Background and Aim: Biologically active glasses, including biomaterials,are used in various medical fields. In this study, two types of biologicallyactive hydroxyapatite (basic biomaterials for bone fracture repair) weresynthesized, and to investigate the phase composition of glass-ceramicsand available ion bands found in the composition and morphology ofeach sample were used for Fourier-Transform Infrared Spectroscopy(FT-IR) and Scanning Electron Microscopy (SEM), respectively. For theformation of apatite and study about the stability behavior of the structurein vitro conditions, we floated two of samples in a simulated body fluid(SBF) for 20 days, and with regard to created weight gain, we compared their bioactivity.Methods: Biologically active glasses, including biomaterials, are used invarious medical and medical fields. In this study, two types of biologicallyactive hydroxyapatite (basic biomaterials for bone fracture repair) weresynthesized, and to investigate the fusion of glass and transplants found inThe composition and morphology of each sample were used for infraredFourier transform and scanning electron microscopy, respectively, andfor the formation of apatite and study of the behavioral stability of thestructure in external conditions, in a simulated body solution for 20 days,and with regard to weight gain Created, you compared their bioactivityResults: Biologically active glasses, including biomaterials, are used invarious medical and medical fields. In this study, two types of biologicallyactive hydroxyapatite (basic biomaterials for bone fracture repair) weresynthesized, and to investigate the fusion of glass and transplants found inThe composition and morphology of each sample were used for infraredFourier transform and scanning electron microscopy, respectively, andfor the formation of apatite and study of the behavioral stability of thestructure in external conditions, in a simulated body solution for 20 days,and with regard to weight gain Created, you compared their bioactivityConclusion: Biologically active glasses, including biomaterials, areused in various medical and medical fields. In this study, two typesof biologically active hydroxyapatite (basic biomaterials for bonefracture repair) were synthesized, and to investigate the fusion of glassand transplants found in The composition and morphology of eachsample were used for infrared Fourier transform and scanning electronmicroscopy, respectively, and for the formation of apatite and study of thebehavioral stability of the structure in external conditions, in a simulatedbody solution for 20 days, and with regard to weight gain Created, youcompared their bioactivity