Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions

Green composites aiming to find ecofriendly ingredients and save natural resources have been widely investigated for years using agricultural and industrial wastes and by-products, natural biomaterials, etc. Besides the basic mechanical performance of green composites, the life-cycle performance of...

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collection Directory of Open Access Books
description Green composites aiming to find ecofriendly ingredients and save natural resources have been widely investigated for years using agricultural and industrial wastes and by-products, natural biomaterials, etc. Besides the basic mechanical performance of green composites, the life-cycle performance of green composites under single/multiple environmental conditions should also be worthy of attention, since green ingredients sometimes reduce the durability performance of green composites, especially under fire/high temperatures, freeze–thaw cycling, dry–wet cycling, and salt corrosion. The aim of this Special Issue was to publish papers that advance the life-cycle performance of green composites under complex environmental conditions.
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language eng
publishDate 2025
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publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-1527422025-02-20T12:59:57Z Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions Gao, Shan Kang, Shaobo anchorage device prestressed Glulam beam finite element method stiffness bearing capacity coal gangue green concrete coarse aggregate structural member eco-friendly production 3D RC frame progressive collapse corner column removal calculation for resistance flexural action compressive arch action ceramsite concrete lightweight concrete wall panels density compressive strength ultrasonic pulse velocity quantitative study recycled fine aggregate concrete impermeability drying shrinkage chloride penetration resistance carbonation resistance acid resistance resistance to freeze–thaw cycles EPS concrete fiber-reinforced concrete orthogonal experimental design mechanical properties microstructures digital image correlation (DIC) natural fiber-reinforced concrete pine needle fiber crack detection and quantification damage evolution factor compression damage process sulfate corrosion freeze-thaw cycle alternation effect CFST pier column hysteretic behavior steel fiber-reinforced recycled concrete macromechanical properties microstructure interface transition zone glulam continuous beam long-term creep deformation coefficient prestress dilation property of concrete in active confinement secant strain ratio lateral–axial strain relationship mesoscale model of concrete pervious concrete basalt fiber strength permeability mesostructure rheological engineering slurry thixotropic characterization rheological model accumulation model agricultural waste elevated temperature modified concrete stress–strain relationships thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology Green composites aiming to find ecofriendly ingredients and save natural resources have been widely investigated for years using agricultural and industrial wastes and by-products, natural biomaterials, etc. Besides the basic mechanical performance of green composites, the life-cycle performance of green composites under single/multiple environmental conditions should also be worthy of attention, since green ingredients sometimes reduce the durability performance of green composites, especially under fire/high temperatures, freeze–thaw cycling, dry–wet cycling, and salt corrosion. The aim of this Special Issue was to publish papers that advance the life-cycle performance of green composites under complex environmental conditions. 2025-02-20T12:59:54Z 2025-02-20T12:59:54Z 2024 book ONIX_20250220_9783725820887_106 9783725820887 9783725820870 https://directory.doabooks.org/handle/20.500.12854/152742 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/9885 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-7258-2087-0 10.3390/books978-3-7258-2087-0 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783725820887 9783725820870 238 Basel open access
spellingShingle anchorage device
prestressed Glulam beam
finite element method
stiffness
bearing capacity
coal gangue
green concrete
coarse aggregate
structural member
eco-friendly production
3D RC frame
progressive collapse
corner column removal
calculation for resistance
flexural action
compressive arch action
ceramsite concrete
lightweight concrete wall panels
density
compressive strength
ultrasonic pulse velocity
quantitative study
recycled fine aggregate concrete
impermeability
drying shrinkage
chloride penetration resistance
carbonation resistance
acid resistance
resistance to freeze–thaw cycles
EPS concrete
fiber-reinforced concrete
orthogonal experimental design
mechanical properties
microstructures
digital image correlation (DIC)
natural fiber-reinforced concrete
pine needle fiber
crack detection and quantification
damage evolution factor
compression damage process
sulfate corrosion
freeze-thaw cycle
alternation effect
CFST pier column
hysteretic behavior
steel fiber-reinforced recycled concrete
macromechanical properties
microstructure
interface transition zone
glulam continuous beam
long-term
creep
deformation coefficient
prestress
dilation property of concrete in active confinement
secant strain ratio
lateral–axial strain relationship
mesoscale model of concrete
pervious concrete
basalt fiber
strength
permeability
mesostructure
rheological engineering slurry
thixotropic characterization
rheological model
accumulation model
agricultural waste
elevated temperature
modified concrete
stress–strain relationships
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title_full Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title_fullStr Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title_full_unstemmed Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title_short Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
title_sort life cycle performance of green cementitious composites under complex environmental conditions
topic anchorage device
prestressed Glulam beam
finite element method
stiffness
bearing capacity
coal gangue
green concrete
coarse aggregate
structural member
eco-friendly production
3D RC frame
progressive collapse
corner column removal
calculation for resistance
flexural action
compressive arch action
ceramsite concrete
lightweight concrete wall panels
density
compressive strength
ultrasonic pulse velocity
quantitative study
recycled fine aggregate concrete
impermeability
drying shrinkage
chloride penetration resistance
carbonation resistance
acid resistance
resistance to freeze–thaw cycles
EPS concrete
fiber-reinforced concrete
orthogonal experimental design
mechanical properties
microstructures
digital image correlation (DIC)
natural fiber-reinforced concrete
pine needle fiber
crack detection and quantification
damage evolution factor
compression damage process
sulfate corrosion
freeze-thaw cycle
alternation effect
CFST pier column
hysteretic behavior
steel fiber-reinforced recycled concrete
macromechanical properties
microstructure
interface transition zone
glulam continuous beam
long-term
creep
deformation coefficient
prestress
dilation property of concrete in active confinement
secant strain ratio
lateral–axial strain relationship
mesoscale model of concrete
pervious concrete
basalt fiber
strength
permeability
mesostructure
rheological engineering slurry
thixotropic characterization
rheological model
accumulation model
agricultural waste
elevated temperature
modified concrete
stress–strain relationships
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
topic_facet anchorage device
prestressed Glulam beam
finite element method
stiffness
bearing capacity
coal gangue
green concrete
coarse aggregate
structural member
eco-friendly production
3D RC frame
progressive collapse
corner column removal
calculation for resistance
flexural action
compressive arch action
ceramsite concrete
lightweight concrete wall panels
density
compressive strength
ultrasonic pulse velocity
quantitative study
recycled fine aggregate concrete
impermeability
drying shrinkage
chloride penetration resistance
carbonation resistance
acid resistance
resistance to freeze–thaw cycles
EPS concrete
fiber-reinforced concrete
orthogonal experimental design
mechanical properties
microstructures
digital image correlation (DIC)
natural fiber-reinforced concrete
pine needle fiber
crack detection and quantification
damage evolution factor
compression damage process
sulfate corrosion
freeze-thaw cycle
alternation effect
CFST pier column
hysteretic behavior
steel fiber-reinforced recycled concrete
macromechanical properties
microstructure
interface transition zone
glulam continuous beam
long-term
creep
deformation coefficient
prestress
dilation property of concrete in active confinement
secant strain ratio
lateral–axial strain relationship
mesoscale model of concrete
pervious concrete
basalt fiber
strength
permeability
mesostructure
rheological engineering slurry
thixotropic characterization
rheological model
accumulation model
agricultural waste
elevated temperature
modified concrete
stress–strain relationships
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
thema EDItEUR::M Medicine and Nursing::MJ Clinical and internal medicine::MJC Diseases and disorders::MJCL Oncology
url ONIX_20250220_9783725820887_106