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Advanced Glasses, Composites and Ceramics for High Growth Industries



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Autore: Boccaccini Aldo Visualizza persona
Titolo: Advanced Glasses, Composites and Ceramics for High Growth Industries Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica: 1 electronic resource (186 p.)
Soggetto non controllato: shear strength
chitosan
inorganic gel casting
glass–ceramic foams
fly ash
cellulose fibers
antibacterial
solid-liquid interdiffusion (SLID) bonding
bioactive glass-ceramic
seawater exposure
Er3+ luminescence property
wastes incorporation
transient-liquid phase bonding (TLPB)
cellulose modification
biocompatibility
glass–ceramic
GeTe
lowered zT
accelerated testing
elastic modulus
PCL
silver
glass fiber-reinforced polymers
oxidation resistance
SOFC
GFRPs
high-temperature thermoelectric material
joining
waste glass
diffusion
hybrid-coating
glass recycling
phosphate glass
dip coating
graphitization
geopolymer composite
direct particle doping
Thermoelectrics
flexural biaxial test
Ba-doping
residual stresses
silver-doped mesoporous glass
ball-on-3-balls test
glass foams
Vicryl Plus suture
DMA
SOEC
gravimetric
skutterudite
wood-derived biocarbon
evanescent wave optical fiber sensors
ageing
oxyfluoride phosphate glass
SOC
PMCs
fractography
gel casting
Zinc
alkali activation
mechanical strength
coatings
Al-doping
polydopamine
testing and aging
loss of band convergence
thermal conductivity
Er2O3-doped particles
Persona (resp. second.): SalvoMilena
ReeceMike
Sommario/riassunto: Advanced Glasses, Composites and Ceramics for High-Growth Industries (CoACH) was a European Training Network (ETN) project (http://www.coach-etn.eu/) funded by the Horizon 2020 program. CoACH involved multiple actors in the innovation ecosystem for advanced materials, composed of five universities and ten enterprises in seven different European countries. The project studied the next generation of materials that could bring innovation in the healthcare, construction, and energy sectors, among others, from new bioactive glasses for bone implants to eco-friendly cements and new environmentally friendly thermoelectrics for energy conversion. The novel materials developed in the CoACH project pave the way for innovative products, improved cost competitiveness, and positive environmental impact. The present Special Issue contains 14 papers resulting from the CoACH project, showcasing the breadth of materials and processes developed during the project.
Titolo autorizzato: Advanced Glasses, Composites and Ceramics for High Growth Industries  Visualizza cluster
ISBN: 3-03897-961-9
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910346850603321
Lo trovi qui: Univ. Federico II
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