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Biosilicate® Glass-Ceramic Foams From Refined Alkali Activation and Gel Casting

Enrico Bernardo, Hamada Elsayed, Acacio Rincón Romero, Murilo C. Crovace, Edgar Dutra Zanotto, Tobias Fey

2021Frontiers in Materials15 citationsDOIOpen Access PDF

Abstract

Biosilicate® glass-ceramics are among the most valid alternatives to 45S5 Bioglass. They combine a similar bioactivity and bioresorbability as the 45S5 with superior mechanical strength, owing to the crystallization of a Na–Ca silicate phase. This crystallization may be experienced upon viscous flow sintering of fine glass powders, thus configuring a sinter-crystallization process. As crystallization is seldom complete, sintering can also be applied to semicrystalline powders. The sintering/crystallization combination may be exploited for shaping highly porous bodies, to be used as scaffolds for bone tissue engineering, in the form of foams. The present study aims at exploring a gel-casting process, based on the room temperature foaming of powders suspended in a “weakly alkaline” (1 M NaOH) aqueous solution, followed by sintering at 1,000°C. The gelation of suspensions is attributed to the formation of hydrated compounds, later decomposed upon firing. Amorphous powders provided more intense gelation than semicrystalline ones, promoted a more homogeneous foaming, and stimulated a substantial crystallization upon firing. The homogeneity of foamed samples was assessed using micro-tomography and was further improved by casting foamed suspensions (“foam casting”) before setting.

Topics & Concepts

CrystallizationMaterials scienceSinteringCrystallinityChemical engineeringCeramicCastingComposite materialPorosityAmorphous solidPhase (matter)ChemistryOrganic chemistryEngineeringBone Tissue Engineering MaterialsDental Implant Techniques and OutcomesFacial Trauma and Fracture Management
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