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Innovative Materials for Construction



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Autore: Frigione Mariaenrica Visualizza persona
Titolo: Innovative Materials for Construction Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (212 p.)
Soggetto topico: Research & information: general
Technology: general issues
Soggetto non controllato: isogrid
aircraft load-bearing structures
finite elements method
nonlinear numerical analyses
stability
equilibrium path
cement
gypsum
hydraulic lime
mechanical properties
mortars
phase-change materials (PCM)
sustainable materials for buildings
thermal energy storage
glass fiber-reinforced polymer (GFRP) rebar
ultra-high-performance concrete (UHPC)
concrete headed GFRP rebar
bond strength
development length
flexural strength
precast concrete deck
material selection
project performance
material property
analytic hierarchy process (AHP)
building construction
concrete system form
phase change material (PCM)
thermal energy storage (TES)
thermal properties
Ca7ZrAl6O18
27Al MAS NMR
Sr-rich (Sr,C)3AH6
cement hydration
refractories
immobilization of radioactive Sr
shrinkage-reducing agent
compressive strength
splitting tensile strength
freezing and thawing
spacing factor
cultural heritage
durability
mechanical characterization
retrofitting
strengthening
quasi-brittle material
three-point bending test
energy fracture
NHL
composite material
jute
MICP
ureolytic bacteria
biocement
natural plant fiber
ladle furnace slag
reclaimed asphalt pavements
cold in-place recycling
simple compressive strength
bitumen emulsion
waste
circular economy
bacteria
biocementation
construction
microbially induced calcium carbonate precipitation
Persona (resp. second.): de AguiarJosé Barroso
FrigioneMariaenrica
Sommario/riassunto: Most of the typical materials employed in today’s constructions present limitations, especially concerning their durability, in either common or severe environmental conditions, and their impact on the environment. In response to these issues, academic and industrial efforts around the world have been devoted to developing new smart materials that can provide efficient alternatives, improve the energy efficiency of buildings, or can upgrade, repair, or protect existing infrastructures. Different and wide technological innovations are, therefore, quickly fostering advancements in the field of construction materials. A new generation of materials (bricks, cement, coatings, concrete, FRP, glass, masonry, mortars, nano-materials, PCM, polymers, steel, wood, etc.) is gaining a prominent position in modern building technology, since they can overcome various limits and flaws of conventional materials employed in constructions, without neglecting the smart applications of pioneering materials in ancient constructions and historic buildings. Even though the adoption of innovative materials in the construction field has been a successful route in achieving enhanced performance, or even new and unexpected characteristics, some issues have not been completely solved. On top of them, the cost/performance ratio of novel solutions, since their introduction must be convenient, without compromising quality. Other concerns are related to their sustainability, with eco-friendly options, possibly exploiting recycled materials or by-products from other productions, being the most desirable solution. Finally, the use of materials or systems that are unconventional in this field raises the need to update or develop new specifications and standards. This special issue aims at providing a platform for discussing open issues, challenges, and achievements related to innovative materials proposed for the construction industry.
Titolo autorizzato: Innovative Materials for Construction  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557714503321
Lo trovi qui: Univ. Federico II
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