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. Juli 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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