Silicone polymers are already known as feedstock for a variety of silicate bioceramics, in the form of scaffolds with complex shapes, obtained by Vat Photopolymerization. Printing is enabled by using silicone blended with photocurable acrylates. The development of a particular silicate composition that functions as a glass or glass-ceramic precursor is possible by the addition of suitable oxide fillers (especially carbonate powders), suspended in the polymer blend. Oxides, from the fillers, easily react with silica left by the thermal transformation of the silicone. The fillers, however, also determine complications in Vat Photopolymerization, due to light scattering; in addition, local oxide concentrations generally impede the obtainment o...
Novel manufacturing techniques such as additive manufacturing also referred to as 3D printing hold a...
Abstract A novel route to fabricating hybrid ceramic matrix composites has been developed. The fabri...
Here we introduce a versatile stereolithographic route to produce three different kinds of Si contai...
Silicate bioceramics, including systems based on the simultaneous presence of wollastonite (CaSiO3) ...
Silicones mixed with oxide fillers are interesting precursors for several bioactive glass-ceramics. ...
A novel concept for the additive manufacturing of three-dimensional glass-ceramic scaffolds, to be u...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at 1100◦C,...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at1100◦C, ...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at 1100 °C...
Highly porous scaffolds with composition similar to those of 45S5 and 58S bioglasses were successful...
Monolithic and powdered Biosilicate®, produced by conventional glass-ceramic technology, have been w...
Powdered ‘silica-defective glasses’, mixed with silicones, have been already shown as a promising so...
Glass-ceramic matrix composites for bone-tissue regeneration were produced in the form of highly por...
International audienceHere we introduce a versatile stereolithographic route to produce three differ...
Multiphase bioceramics based on wollastonite and wollastonite/hydroxylapatite (W/HAp) have been succ...
Novel manufacturing techniques such as additive manufacturing also referred to as 3D printing hold a...
Abstract A novel route to fabricating hybrid ceramic matrix composites has been developed. The fabri...
Here we introduce a versatile stereolithographic route to produce three different kinds of Si contai...
Silicate bioceramics, including systems based on the simultaneous presence of wollastonite (CaSiO3) ...
Silicones mixed with oxide fillers are interesting precursors for several bioactive glass-ceramics. ...
A novel concept for the additive manufacturing of three-dimensional glass-ceramic scaffolds, to be u...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at 1100◦C,...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at1100◦C, ...
Silicone resins, filled with phosphates and other oxide fillers, yield upon firing in air at 1100 °C...
Highly porous scaffolds with composition similar to those of 45S5 and 58S bioglasses were successful...
Monolithic and powdered Biosilicate®, produced by conventional glass-ceramic technology, have been w...
Powdered ‘silica-defective glasses’, mixed with silicones, have been already shown as a promising so...
Glass-ceramic matrix composites for bone-tissue regeneration were produced in the form of highly por...
International audienceHere we introduce a versatile stereolithographic route to produce three differ...
Multiphase bioceramics based on wollastonite and wollastonite/hydroxylapatite (W/HAp) have been succ...
Novel manufacturing techniques such as additive manufacturing also referred to as 3D printing hold a...
Abstract A novel route to fabricating hybrid ceramic matrix composites has been developed. The fabri...
Here we introduce a versatile stereolithographic route to produce three different kinds of Si contai...