Characterization of Ti-6Al-4V titanium alloy applied in hydroxyapatite coated hip prostheses.
Caracterização da liga de titânio Ti-6Al-4V aplicada em próteses de quadril revestidas com hidroxiapatita.;
Caracterización de la aleación de titanio Ti-6Al-4V aplicada a prótesis de cadera recubiertas de hidroxiapatita
Abstract
Titanium and its alloys are widely used as biomaterials in hard tissue replacements due to their unique physiological environment responses and chemical and mechanical properties, such as corrosion resistance, fatigue resistance, and ductility. Other metals used as biomaterials have elastic modulus with values ten times higher than human bone, which can cause failure when there are impacts. Several studies report hip prosthesis failures due to fatigue. This article aims to carry out studies on the mechanical properties and fatigue resistance in an environment that simulates those of the joints of the human body, using hip prostheses manufactured with Ti 6Al 4V alloy with hydroxyapatite coating. Samples were taken from the neck region for microstructural characterization to identify grain size, inclusions, microhardness, tensile test, scanning electron microscopy, energy dispersion spectroscopy, X-ray fluorescence,e, and X-ray diffraction also performed. After applying more than 10,000,000 cycles with compressive forces ranging from -0.3 kN to -3.0 kN, no cracks were found and it was observed that the part suffered only elastic deformations.
- Hip Arthroplasty Techniques and Materials
- Titanium Alloys for Biomedical Applications
- Bone Tissue Engineering and Biomaterials
- Hip Arthroplasty Techniques and Materials
- Surgery
- Medicine
- Health Sciences
- Titanium alloy
- Ductility (Earth science)
- Titanium Alloys
- Characterization (materials science)
- Materials science
- Titanium alloy
- Indentation hardness
- Ductility (Earth science)
- Scanning electron microscope
- Titanium
- Ultimate tensile strength
- Characterization (materials science)
- Alloy
- Composite material
- Metallurgy
- Corrosion
- Coating
- Elastic modulus
- Microstructure
- Creep
- Nanotechnology
- Acesso Aberto
URI
https://openalex.org/W4281776127https://doi.org/10.33448/rsd-v11i8.30629
https://rsdjournal.org/index.php/rsd/article/download/30629/26233
https://repositorio.maua.br/handle/MAUA/1636
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