Research and Development of Modified Building Materials

This reprint includes research papers on different disciplines related to composites. It contains research related to new topics such as nanotubes, fibres, admixtures added in cement and concrete. Additionally self-healing and self-sensing issues are presented. Environmental, and thermal-related top...

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collection Directory of Open Access Books
description This reprint includes research papers on different disciplines related to composites. It contains research related to new topics such as nanotubes, fibres, admixtures added in cement and concrete. Additionally self-healing and self-sensing issues are presented. Environmental, and thermal-related topics are also discussed. Studies related to consolidation topics and alkali activation of clays are included. This blend of traditional and modern building materials, all having a common ground, the use of new technologies for improving fresh and harden state properties, make this volume interesting.
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institution Directory of Open Access Books
language eng
publishDate 2023
publishDateRange 2023
publishDateSort 2023
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-981042023-03-07T16:34:14Z Research and Development of Modified Building Materials Stefanidou, Maria single wall carbon nanotubes surfactant TritonX-100 mass of specimens compressive strength flexural Strength bulk density ternary cements limestone siliceous fly ash granulated blast furnace slag concrete properties concrete durability CO2 emission detached decorative plasters injection grout glass microspheres reduced density stability strength durability clay mortars activating solutions wetting–drying freeze–thaw cycles microstructure superabsorbent polymer steel fibers high-performance fiber reinforced concrete digital image correlation autogenous shrinkage tensile behavior nano-calcium oxide nano-silica self-healing cement pastes curing regime gypsum binder additives light-materials porosity thermal insulation cement hydrated lime HEMC mortar paste hydration setting process ultrasonic technique graphite electrical conductivity self-sensing multi-walled carbon nanotubes cement-based materials flexural strength electrical resistivity activation energy supplementary cementitious materials packing density filler effect high calcium fly ash ladle furnace slag limestone filler foamed geopolymer reinforcing lightweight concrete glass fiber composites concrete thermal properties structural properties composite modified asphalt binder rheological properties storage stability amorphous poly alpha olefin polyphosphoric acid application properties water retention plaster cellulose ether viscosity self-compacting concrete (SCC) mix proportion design optimization experimental verification the grey relational analysis hook-end steel fiber bond performance pullout test inclination angle fiber spacing pullout load-slip curve This reprint includes research papers on different disciplines related to composites. It contains research related to new topics such as nanotubes, fibres, admixtures added in cement and concrete. Additionally self-healing and self-sensing issues are presented. Environmental, and thermal-related topics are also discussed. Studies related to consolidation topics and alkali activation of clays are included. This blend of traditional and modern building materials, all having a common ground, the use of new technologies for improving fresh and harden state properties, make this volume interesting. 2023-03-07T16:34:13Z 2023-03-07T16:34:13Z 2023 book ONIX_20230307_9783036567426_114 9783036567426 9783036567433 https://directory.doabooks.org/handle/20.500.12854/98104 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/6877 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-6743-3 10.3390/books978-3-0365-6743-3 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036567426 9783036567433 318 Basel open access
spellingShingle single wall carbon nanotubes
surfactant
TritonX-100
mass of specimens
compressive strength
flexural Strength
bulk density
ternary cements
limestone
siliceous fly ash
granulated blast furnace slag
concrete properties
concrete durability
CO2 emission
detached decorative plasters
injection grout
glass microspheres
reduced density
stability
strength
durability
clay mortars
activating solutions
wetting–drying
freeze–thaw cycles
microstructure
superabsorbent polymer
steel fibers
high-performance fiber reinforced concrete
digital image correlation
autogenous shrinkage
tensile behavior
nano-calcium oxide
nano-silica
self-healing
cement pastes
curing regime
gypsum binder
additives
light-materials
porosity
thermal insulation
cement
hydrated lime
HEMC
mortar
paste
hydration
setting process
ultrasonic technique
graphite
electrical conductivity
self-sensing
multi-walled carbon nanotubes
cement-based materials
flexural strength
electrical resistivity
activation energy
supplementary cementitious materials
packing density
filler effect
high calcium fly ash
ladle furnace slag
limestone filler
foamed geopolymer
reinforcing lightweight concrete
glass fiber composites
concrete
thermal properties
structural properties
composite modified asphalt binder
rheological properties
storage stability
amorphous poly alpha olefin
polyphosphoric acid
application properties
water retention
plaster
cellulose ether
viscosity
self-compacting concrete (SCC)
mix proportion design
optimization
experimental verification
the grey relational analysis
hook-end steel fiber
bond performance
pullout test
inclination angle
fiber spacing
pullout load-slip curve
Research and Development of Modified Building Materials
title Research and Development of Modified Building Materials
title_full Research and Development of Modified Building Materials
title_fullStr Research and Development of Modified Building Materials
title_full_unstemmed Research and Development of Modified Building Materials
title_short Research and Development of Modified Building Materials
title_sort research and development of modified building materials
topic single wall carbon nanotubes
surfactant
TritonX-100
mass of specimens
compressive strength
flexural Strength
bulk density
ternary cements
limestone
siliceous fly ash
granulated blast furnace slag
concrete properties
concrete durability
CO2 emission
detached decorative plasters
injection grout
glass microspheres
reduced density
stability
strength
durability
clay mortars
activating solutions
wetting–drying
freeze–thaw cycles
microstructure
superabsorbent polymer
steel fibers
high-performance fiber reinforced concrete
digital image correlation
autogenous shrinkage
tensile behavior
nano-calcium oxide
nano-silica
self-healing
cement pastes
curing regime
gypsum binder
additives
light-materials
porosity
thermal insulation
cement
hydrated lime
HEMC
mortar
paste
hydration
setting process
ultrasonic technique
graphite
electrical conductivity
self-sensing
multi-walled carbon nanotubes
cement-based materials
flexural strength
electrical resistivity
activation energy
supplementary cementitious materials
packing density
filler effect
high calcium fly ash
ladle furnace slag
limestone filler
foamed geopolymer
reinforcing lightweight concrete
glass fiber composites
concrete
thermal properties
structural properties
composite modified asphalt binder
rheological properties
storage stability
amorphous poly alpha olefin
polyphosphoric acid
application properties
water retention
plaster
cellulose ether
viscosity
self-compacting concrete (SCC)
mix proportion design
optimization
experimental verification
the grey relational analysis
hook-end steel fiber
bond performance
pullout test
inclination angle
fiber spacing
pullout load-slip curve
topic_facet single wall carbon nanotubes
surfactant
TritonX-100
mass of specimens
compressive strength
flexural Strength
bulk density
ternary cements
limestone
siliceous fly ash
granulated blast furnace slag
concrete properties
concrete durability
CO2 emission
detached decorative plasters
injection grout
glass microspheres
reduced density
stability
strength
durability
clay mortars
activating solutions
wetting–drying
freeze–thaw cycles
microstructure
superabsorbent polymer
steel fibers
high-performance fiber reinforced concrete
digital image correlation
autogenous shrinkage
tensile behavior
nano-calcium oxide
nano-silica
self-healing
cement pastes
curing regime
gypsum binder
additives
light-materials
porosity
thermal insulation
cement
hydrated lime
HEMC
mortar
paste
hydration
setting process
ultrasonic technique
graphite
electrical conductivity
self-sensing
multi-walled carbon nanotubes
cement-based materials
flexural strength
electrical resistivity
activation energy
supplementary cementitious materials
packing density
filler effect
high calcium fly ash
ladle furnace slag
limestone filler
foamed geopolymer
reinforcing lightweight concrete
glass fiber composites
concrete
thermal properties
structural properties
composite modified asphalt binder
rheological properties
storage stability
amorphous poly alpha olefin
polyphosphoric acid
application properties
water retention
plaster
cellulose ether
viscosity
self-compacting concrete (SCC)
mix proportion design
optimization
experimental verification
the grey relational analysis
hook-end steel fiber
bond performance
pullout test
inclination angle
fiber spacing
pullout load-slip curve
url ONIX_20230307_9783036567426_114