Katrin Hurle
University of Erlangen-Nuremberg
42 Papers
51 Citations
Katrin Hurle is an academic researcher from University of Erlangen-Nuremberg. The author has contributed to research in topics: Crystallization & Chemistry. The author has an hindex of 7, co-authored 28 publications.
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Papers
Reaction kinetics of dual setting α-tricalcium phosphate cements
Katrin Hurle,Theresa Christel,Uwe Gbureck,Claus Moseke,Juergen Neubauer,Friedlinde Goetz-Neunhoeffer +5 more
TL;DR: While the extent of CDHA formation was decreased, the mechanical properties were noticeably improved by addition of HEMA, suggesting α-TCP/HEMA composites might be suitable for application in some load-bearing defects and have adequate properties for mechanical treatment after implantation, like insertion of screws.
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Ion-doped Brushite Cements for Bone Regeneration.
TL;DR: The role of ionic substitution on the cements physicochemical properties, such as structural, setting time, hydration products, injectability, mechanical behaviour and ion release is discussed in this paper.
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Crack-healing during two-stage crystallization of biomedical lithium (di)silicate glass-ceramics.
TL;DR: The two tested lithium (di)silicate systems showed strong differences in oxide composition of the parent glass, which showed to influence the transformation of lithium metasilicate in lithium disilicate, with the former remaining in high vol.% fraction in the post-crystallization Suprinity PC.
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Mechanical improvement of calcium carbonate cements by in situ HEMA polymerization during hardening
TL;DR: In this article, a mechanically enhanced calcium carbonate cement, formulated of vaterite and magnesium-doped amorphous calcium carbonates, was strengthened by in situ polymerization of incorporated 2-hydroxyethylmethacrylate (HEMA) during setting in simulated body fluid (SBF).
Concurrent kinetics of crystallization and toughening in multicomponent biomedical SiO2-Li2O-P2O5-ZrO2 glass-ceramics
TL;DR: In this paper, the authors investigate the crystallization kinetics of two pre-crystallized multicomponent dental glass-ceramics by interrupting the heat treatment at different periods of the non-isothermal and isothermal stage at 840°C.
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