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Sustainability and Resiliency of Building Materials and Structures
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ArtikelUtgivningsinformation: Basel MDPI - Multidisciplinary Digital Publishing Institute 2024Beskrivning: 1 electronic resource (324 p.)Innehållstyp: - text
- computer
- online resource
- 9783725820979
- 9783725820986
- Medicine
- Clinical & internal medicine
- Diseases and disorders
- Oncology
- Technology, Engineering, Agriculture, Industrial processes
- Technology: general issues
- CFRP
- CFS-CLPM composite walls
- FEM analysis
- Friedel's salt
- Kuzel's salt
- PC frames
- RC
- accuracy
- alkali–aggregate reaction
- basalt fiber-reinforced polymer bars
- bolt crack
- bond strength
- building energy efficiency
- campus building
- cement-based piezoelectric composites
- cement-stabilized pavement base
- ceramsite concrete
- coal gangue
- column
- compressive strength loss rate
- concrete-filled steel tube
- construction process
- corrosive environment
- cross-shaped CFST column
- curved interface
- cyclic behavior
- damage coefficient
- damaged thread
- defect coefficient
- design method
- dihydrate gypsum
- dilation of concrete
- earthquake response
- eccentric compression
- elastic stiffness
- epoxy-coated steel bars
- erosion characteristics
- erosion mechanisms
- evacuation
- finite element
- finite element analysis
- finite element model
- fire behavior
- fire spread
- flame temperature
- freeze–thaw cycle
- full-scale experiment
- gender
- high-strength bolt
- horizontal impact
- hydration mechanism
- idealization method
- impact
- inertial effect
- initial geometric defect magnit
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The sustainability and resiliency of building materials and structures under single/multiple loading conditions should also be worthy of attention, since complex loading conditions would reduce the durability performance of building materials and structures, especially under fire/high temperatures, freeze–thaw cycling, dry-wet cycling, and salt corrosion. The aim of this Special Issue is to publish papers that advance the sustainability and resiliency of building materials and structures under complex loading conditions.
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