Literals
- aiiso:code
- 0b2ecd0074ece207bd7e99a8baca7dbf
- ou:dialnetId
- 4681667
- foaf:firstName
- FRANCISCO JAVIER
- ou:indiceHscopus
- 14
- foaf:lastName
- MARTÍNEZ VÁZQUEZ
- foaf:name
- FRANCISCO JAVIER MARTÍNEZ VÁZQUEZ
- vivo:scopusId
- 6602425834
Typed Literals
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Relations
- ou:tienePublicacion
- A simple graphite-based support material for robocasting of ceramic parts
- Applicability of near-field electrospinning for the development of TCP-based thin fibres and scaffold 3D printing
- Bioceramic scaffolds fabrication: Indirect 3D printing combined with ice-templating vs. robocasting
- Biological properties of solid free form designed ceramic scaffolds with bmp-2: In vitro and in vivo evaluation
- Clarifying the effect of sintering conditions on the microstructure and mechanical properties of β-tricalcium phosphate
- Co-continuous calcium phosphate/polycaprolactone composite bone scaffolds fabricated by digital light processing and polymer melt suction
- Development by robocasting and mechanical characterization of hybrid HA/PCL coaxial scaffolds for biomedical applications
- Effect of polymer infiltration on the flexural behavior of β-tricalcium phosphate robocast scaffolds
- Effect of the Air Coflow Temperature and Spinneret Position on the Solution Blow Spinning Technique
- Effect of the drying process on the compressive strength and cell proliferation of hydroxyapatite-derived scaffolds
- Evaluation of direct light processing for the fabrication of bioactive ceramic scaffolds: Effect of pore/strut size on manufacturability and mechanical performance
- Fabricating exotic boron carbide ceramics by shaker milling and reactive spark plasma sintering of B and C: Application to the elusive B<inf>6</inf>C
- Fabrication of novel Si-doped hydroxyapatite/gelatine scaffolds by rapid prototyping for drug delivery and bone regeneration
- Impregnation of β-tricalcium phosphate robocast scaffolds by in situ polymerization
- Improving the compressive strength of bioceramic robocast scaffolds by polymer infiltration
- Label-free magnetic resonance imaging to locate live cells in three-dimensional porous scaffolds
- Mechanics Predicts Effective Critical-Size Bone Regeneration Using 3D-Printed Bioceramic Scaffolds
- Novel bioinspired composites fabricated by robocasting for dental applications
- Novel strategy for toughening robocast bioceramic scaffolds using polymeric cores
- Reinforcing bioceramic scaffolds with in situ synthesized ε-polycaprolactone coatings
- Response of osteoblasts and preosteoblasts to calcium deficient and Si substituted hydroxyapatites treated at different temperatures
- Robocasting and Laser Micromachining of Sol-Gel Derived 3D Silica/Gelatin/β-TCP Scaffolds for Bone Tissue Regeneration
- Spark-plasma sintering of boron carbide–silicon carbide composites at 1400 °C from B<inf>4</inf>C+Si: Densification and sintering/reaction mechanisms
- Structural optimization of 3D-printed patient-specific ceramic scaffolds for in vivo bone regeneration in load-bearing defects
- Unlubricated sliding wear of B<inf>4</inf>C composites spark-plasma sintered with Si aids and of their reference B<inf>4</inf>C monoliths
- Using ductile cores for enhancing the mechanical performance of hollow strut β-TCP scaffolds fabricated by digital light processing
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