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Self-healing capacity of fiber-reinforced calcium phosphate cements

Anne V. Boehm, Susanne Meininger, Uwe Gbureck, Frank A. Müller

2020Scientific Reports21 citationsDOIOpen Access PDF

Abstract

Abstract A major problem concerning the mechanical properties of calcium phosphate cements (CPC) is related to their inherent brittleness, which limits their applicability to non-load bearing bone defects. In this work the preparation of a damage tolerant CPC is presented, where the incorporation of functionalized carbon fibers facilitates steady state flat crack propagation with crack openings below 10 µm. A subsequent self-healing process in simulated body fluid, that mimics the in vivo mineralization of bioactive surfaces, closes the cracks and completely restores the mechanical properties. Hereby, two pathways of self-healing are presented: i) intrinsic healing that bases on the inherent bioactive properties of the cement matrix and chemically treated fibers, and ii) capsule based extrinsic healing, where H 2 PO 4 - is released as an initiator for the apatite formation. Such damage tolerant CPCs with self-healing capacity are of particular interest to increase the lifetime of implants as well as in the field of load-bearing bioceramics.

Topics & Concepts

Self-healingMaterials scienceBrittlenessComposite materialLoad bearingCementApatiteBone healingCalciumBiomedical engineeringChemistryMineralogySurgeryPathologyMedicineMetallurgyAlternative medicineBone Tissue Engineering MaterialsCalcium Carbonate Crystallization and InhibitionMicrobial Applications in Construction Materials
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