Life-Cycle Performance of Green Cementitious Composites under Complex Environmental Conditions
Materialtyp:
ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (238 p.)Innehållstyp: - text
- computer
- online resource
- 9783725820870
- 9783725820887
- Medicine
- Clinical & internal medicine
- Diseases and disorders
- Oncology
- Technology, Engineering, Agriculture, Industrial processes
- Technology: general issues
- 3D RC frame
- CFST pier column
- EPS concrete
- accumulation model
- acid resistance
- agricultural waste
- alternation effect
- anchorage device
- basalt fiber
- bearing capacity
- calculation for resistance
- carbonation resistance
- ceramsite concrete
- chloride penetration resistance
- coal gangue
- coarse aggregate
- compression damage process
- compressive arch action
- compressive strength
- corner column removal
- crack detection and quantification
- creep
- damage evolution factor
- deformation coefficient
- density
- digital image correlation (DIC)
- dilation property of concrete in active confinement
- drying shrinkage
- eco-friendly production
- elevated temperature
- fiber-reinforced concrete
- finite element method
- flexural action
- freeze-thaw cycle
- glulam continuous beam
- green concrete
- hysteretic behavior
- impermeability
- interface transition zone
- lateral–axial strain relationship
- lightweight concrete wall panels
- long-term
- macromechanical properties
- mechanical properties
- mesoscale model of concrete
- mesostructure
- microstructure
- microstructures
- modified conc
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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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