Archive/Hydroxyapatite–Magnesium Bioceramics: Synthesis and Mechanical–Chemical Characterization
Hydroxyapatite–Magnesium Bioceramics: Synthesis and Mechanical–Chemical Characterization
Elizabeth Refugio-García, Zaira Itzel Bedolla-Valdez, Alfredo Emiliano Chávez-Pantiga et al.
15 de julho de 2026
en

Abstract

Hydroxyapatite (HA) is widely used in biomedical applications due to its biocompatibility and chemical similarity to the mineral phase of bone; however, its low mechanical strength limits its structural use. In this work, HA ceramics with different Mg additions (0, 0.5, 1, 3, 5, and 10% by weight) were prepared using the powder processing technique. The mixtures were homogenized, conformed and sintered at 1100 °C. The incorporation of intermediate Mg concentrations produced an increase in fracture toughness compared to pure HA. The best mechanical performance was obtained with the formulation containing 5% Mg by weight, achieving a hardness of 319 HV, a porosity of 12.92% and a fracture toughness of 4.06 MPa·m0.5, comparable to those reported for human cortical bone, indicating its potential for applications in moderately loaded bone implants. The findings indicate that magnesium functions as a reinforcing component in the ceramic matrix, mitigating critical defects and thereby contributing to the improved toughness of Mg-containing hydroxyapatite ceramics. The polarization resistance results show that the incorporation of low fractions by weight of magnesium (1% Mg) adjusts the electrochemical behavior of the material, while higher increases in its concentration cause a deterioration of this property.

IPC Classification

A61C07A01B60

Keywords

hydroxyapatitemagnesiumbioceramicssynthesismechanicalchemicalcharacterizationappliedbioscienceswidelyusedbiomedicalapplicationsbiocompatibilitysimilaritymineralphasebonehoweverstrengthlimitsstructuralworkceramics
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