Environment-Friendly Construction Materials

Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designin...

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Bibliographic Details
Main Author: Wu, Shaopeng (auth)
Other Authors: Amirkhanian, Serji (auth), Xiao, Yue (auth), Hoff, Inge (auth)
Format: Electronic Book Chapter
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2019
Subjects:
SEM
CO2
SOD
MDA
Online Access:DOAB: download the publication
DOAB: description of the publication
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100 1 |a Wu, Shaopeng  |4 auth 
700 1 |a Amirkhanian, Serji  |4 auth 
700 1 |a Xiao, Yue  |4 auth 
700 1 |a Hoff, Inge  |4 auth 
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520 |a Construction materials are the most widely used materials for civil infrastructure in our daily lives. However, from an environmental point of view, they consume a huge amount of natural resources and generate the majority of greenhouse gasses. Therefore, many new and novel technologies for designing environmentally friendly construction materials have been developed recently. This Special Issue, "Environment-Friendly Construction Materials", has been proposed and organized as a means to present recent developments in the field of construction materials. It covers a wide range of selected topics on construction materials. 
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653 |a limestone aggregates 
653 |a bio-oil 
653 |a plateau value of dissipated strain energy ratio 
653 |a diatomite 
653 |a water-leaching pretreatment 
653 |a fatigue performance 
653 |a ultra-thin wearing course 
653 |a recycling aggregate 
653 |a design optimization 
653 |a induction heating 
653 |a vibration noise consumption 
653 |a bitumen 
653 |a relaxation 
653 |a viscous-elastic temperature 
653 |a field evaluation 
653 |a healing agents 
653 |a transmittance 
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653 |a artificially aged asphalt mixture 
653 |a sequencing batch Chlorella reactor 
653 |a waste concrete 
653 |a plant ash lixivium 
653 |a steel fiber 
653 |a ultra-high performance concrete 
653 |a titanate coupling agent 
653 |a SEM 
653 |a self-healing 
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653 |a porous pumice 
653 |a thermal-mechanical properties 
653 |a aggregate morphology 
653 |a asphalt mortar 
653 |a adhesion energy 
653 |a styrene-butadiene-styrene (SBS) modified bitumen 
653 |a water solute exposure 
653 |a emulsified asphalt 
653 |a demulsification speed 
653 |a mineral-asphalt mixtures 
653 |a aging processes 
653 |a phase change materials 
653 |a surface texture 
653 |a long-term drying shrinkage 
653 |a contact angle 
653 |a aging depth 
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653 |a calcium alginate capsules 
653 |a nitrogen and phosphorus removal 
653 |a micro-morphology 
653 |a rice husk ash 
653 |a low-temperature 
653 |a cement 
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653 |a asphalt mixture 
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653 |a layered double hydroxide 
653 |a initial self-healing temperature 
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653 |a temperature sensitivity characteristics 
653 |a micro-surfacing 
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653 |a dynamic characteristics 
653 |a high-strength concrete 
653 |a flame retardant 
653 |a durability 
653 |a creep 
653 |a damping 
653 |a damage constitutive model 
653 |a Ultra-High Performance Concrete (UHPC) 
653 |a granite aggregate 
653 |a diatomite-modified asphalt mixture 
653 |a healing model 
653 |a asphalt combustion 
653 |a freeze-thaw cycle 
653 |a SBS-modified bitumen 
653 |a workability 
653 |a graphene 
653 |a flow behavior index 
653 |a fluidity 
653 |a parametrization 
653 |a fatigue property 
653 |a rankinite 
653 |a railway application 
653 |a crystallization sensitivity 
653 |a aqueous solute compositions 
653 |a pozzolanic reaction 
653 |a self-healing asphalt 
653 |a recycled material 
653 |a artificial neural network 
653 |a rheological properties 
653 |a molecular dynamic simulation 
653 |a building envelopes 
653 |a aluminum hydroxide 
653 |a crumb rubber 
653 |a optimization 
653 |a viscoelasticity 
653 |a building energy conservation 
653 |a diffusing 
653 |a anti-rutting agent 
653 |a molecular bridge 
653 |a engineered cementitious composites (ECC) 
653 |a pavement performance 
653 |a morphology 
653 |a colloidal structure 
653 |a hydrophilic nanosilica 
653 |a construction materials 
653 |a road engineering 
653 |a laboratory evaluation 
653 |a rejuvenator 
653 |a fatigue equation 
653 |a aggregates 
653 |a three-point bending fatigue test 
653 |a energy-based approach 
653 |a aggregate from sanitary ceramic wastes 
653 |a polyacrylic acid 
653 |a mastic 
653 |a CO2 
653 |a specific surface area 
653 |a aggregate image measurement system 
653 |a solubilizer 
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653 |a simplex lattice design 
653 |a SBS/CRP-modified bitumen 
653 |a water stability 
653 |a fatigue life 
653 |a rejuvenating systems 
653 |a skid-resistance 
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653 |a effective heating depth 
653 |a dissipated strain energy 
653 |a MDA 
653 |a mechanical behavior 
653 |a plateau value of permanent deformation ratio 
653 |a long-term field service 
653 |a crack healing 
653 |a desulphurization gypsum residues 
653 |a pavement failure 
653 |a rejuvenation 
653 |a interfacial transition zone 
653 |a combination 
653 |a polyethylene glycol 
653 |a adsorption 
653 |a tensile strains 
653 |a cold recycled asphalt mixture 
653 |a resistance to deformations 
653 |a asphalt-aggregate adhesion 
653 |a viscoelastic properties 
653 |a damage evolution 
653 |a carbonation 
653 |a microwave heating 
653 |a amorphous silica 
653 |a high-modulus asphalt mixture (HMAM) 
653 |a hot mix asphalt containing recycled concrete aggregate 
653 |a microfluidic 
653 |a dynamic responses 
653 |a concrete 
653 |a asphalt mastic 
653 |a crumb rubber powder 
653 |a response surface methodology 
653 |a nanomaterial 
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653 |a rutting factor 
653 |a X-ray computed tomography 
653 |a fiber modification 
653 |a overlay tester 
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653 |a aged bitumen 
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653 |a recycling 
653 |a damage characteristics 
653 |a dynamic tests 
653 |a permeation 
653 |a ageing resistance 
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