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Biomaterials for Bone Tissue Engineering
| Biomaterials for Bone Tissue Engineering |
| Autore | Sanz José Antonio |
| Pubbl/distr/stampa | MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica | 1 electronic resource (244 p.) |
| Soggetto non controllato |
bone morphogenesis proteins
finite element bone tissue engineering electrically active implants prediction marker vertebra direct current electric field loose sintering Lattice Boltzmann method Pelvis automatic segmentation MSCs additive manufacturing finite element method bioelectromagnetism optimization scaffold design cone beam computed tomography computational modelling bone regeneration oxygen delivery biomaterials bone tissue spark plasma sintering critical size defect musculoskeletal modelling resonance frequency analysis minipig numerical methods in bioengineering computational fluid dynamics maxillofacial osteoporosis sliding window osseointegration mass transfer substrate-mediated electrical stimulation Fixation design dental implants human dental pulp stem cells numerical results elastoplasticity bone tissue regeneration finite-element simulation 3D-printed implant selective laser melting Lagrangian scalar tracking cortical bone micromechanics trabeculae finite element modelling damage titanium powder metallurgy pelvis biomechanics computational mechanobiology culturing protocol bone adaptation stem cell Bone tumor trabecular bone score Xenografts triply periodic minimal surfaces computed tomography multiscale analysis cartilage digital image correlation osteo-differentiation wollastonite transport finite element analysis bone marrow fracture risk von Mises stress electric stimulation mechanical behaviour adipogenesis biomaterial applications computational mechanics Ti6Al4V scaffolds finite elements Otsu's method 3D virtual surgical plan |
| ISBN | 3-03928-966-7 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910404077303321 |
Sanz José Antonio
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| MDPI - Multidisciplinary Digital Publishing Institute, 2020 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Smart Materials and Devices for Energy Harvesting
| Smart Materials and Devices for Energy Harvesting |
| Autore | Davino Daniele |
| Pubbl/distr/stampa | Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 |
| Descrizione fisica | 1 electronic resource (218 p.) |
| Soggetto topico |
Technology: general issues
History of engineering & technology |
| Soggetto non controllato |
magnetostrictive
energy harvesting wearable magnetostrictive materials Galfenol finite element model iron-gallium measurements preisach model piezoelectric ceramics lead-free piezoceramics virtual instrument 3D electrospinning PVDF fibers piezoelectricity piezoelectric sensing wind energy harvesting snap-through motion dynamic stability variable-speed double-clamped width shapes piezoelectric energy harvester electrodes pair MEMS structure finite element method open circuit voltage moving load layered double hydroxide solar cell (LDHSC) photoactive material UV-Vis absorption dye sensitized solar cell (DSSC) photoactive layered double hydroxide (LDH) transition metal modification optical bandgap analysis renewable energy photovoltaic device design iron (Fe) modified MgFeAl LDH triboelectric effect polymer and composites low-power devices thermomagnetic energy generators power generation waste heat recovery lumped-element modelling magnetic shape memory films Ni-Mn-Ga film magnetization change Curie temperature finite element simulation piezoelectric unit distributions electrical potential and energy von Mises stress PVDF piezoelectric material human body movements glass fiber-reinforced polymer composite multifunctional structural laminate thermal energy harvesting through-thickness thermal gradient thermoelectric generator (TEG) |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910557621403321 |
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Davino Daniele
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| Basel, : MDPI - Multidisciplinary Digital Publishing Institute, 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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