期刊
MATERIALS
卷 15, 期 18, 页码 -出版社
MDPI
DOI: 10.3390/ma15186263
关键词
bioactive glass; sintering; crystallization; bioactivity; therapeutic ions
类别
资金
- FAR 2021 (Dipartimento di Ingegneria Enzo Ferrari, Universita degli Studi di Modena e Reggio Emilia, Italy)
The recent research on bioactive glasses has focused on two aspects: introducing therapeutic ions into their composition and developing various products from powdered bioactive glasses. The main challenge lies in the rapid crystallization of bioactive glasses during heat treatments, resulting in glass-ceramics with reduced reactivity, slow ion release, and poor mechanical properties. This study presents an innovative bioactive glass material containing strontium and magnesium, which can be sintered at extremely low temperatures without crystallization, thereby preserving its biological potential.
The recent research on bioactive glasses (BGs) has mainly moved on two fronts: (1) introducing ions of therapeutic interest in their composition and (2) the development of scaffolds, fibers, coatings and sintered products starting from BGs in powder form. In this case, the main obstacle to overcome is that BGs rapidly crystallize during heat treatments, thus transforming into glass-ceramics with low reactivity, slow ion release and, eventually, poor mechanical properties. Here an innovative bioactive glass (BGMS_LS), capable of responding to the main limitations of commercial BGs, is presented. The new material contains strontium and magnesium, whose therapeutic relevance is well known, and can be sintered at extraordinarily low temperatures without crystallizing, thus keeping all of its biological potential intact.
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