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This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to “Binder’s modification” and five to “Asphalt mixtures’ modification”. The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.
Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc --- n/a
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This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to “Binder’s modification” and five to “Asphalt mixtures’ modification”. The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.
History of engineering & technology --- Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc --- Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc
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This book is dedicated to the use of nanomaterials for the modification of asphalt binders, and to investigate whether or not the use of nanomaterials for asphalt mixtures fabrication achieves more effective asphalt pavement layers. A total of 10 contributions are included. Four are related to “Binder’s modification” and five to “Asphalt mixtures’ modification”. The remaining contribution is a review of the effects of the modifications on nanomaterials, particularly nanosilica, nanoclays and nanoiron, on the performance of asphalt mixtures. The published group of papers fosters awareness about the use of nanomaterials to modify asphalt mixtures to obtain more performant and durable flexible road pavements.
History of engineering & technology --- Graphene nano-platelets (GNPs) --- asphalt --- Scanning Electron Microscope (SEM) --- structural performance --- functional performance --- nanomaterials --- life cycle assessment --- nano-modified asphalt materials --- environmental impact --- spring-thaw season --- freeze-thaw cycle --- Nanomaterial modifier --- nano hydrophobic silane silica --- property improvement --- seasonally frozen region --- aggregate-bitumen interface --- bond strength --- nano titanium dioxide --- epoxy emulsified asphalt --- photocatalysis --- exhaust gas degradation --- modified asphalt mixtures --- polymers --- rheological behavior --- fatigue cracking --- permanent deformation --- modified bitumen --- nanosilica --- nanoclay --- nanoiron --- asphalt mixtures --- mechanical performance --- aging sensitivity --- ageing --- plastic film --- urban waste --- moisture --- indirect tensile strength --- graphene nanoplatelets (GNPs) --- EAF steel slag --- microwave heating --- self-healing --- Asphalt modification --- modifier chemistry --- long-term aging --- asphalt rheology --- phase angle --- delta Tc --- n/a
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The Special Issue, “Architectural Structure,” aims to gather general advances in human-made constructions which simultaneously are driven by aesthetic and structural engineering considerations. This Special Issue brings together twelve contributions covering the following topics: analysis of architectural typologies; the study of the mechanical performance of structural materials, structural systems and components; and the proposal of techniques to evaluate the mechanical performance in existing structures and new construction techniques.
History of engineering & technology --- recycled aggregate concrete --- block masonry --- compressive strength --- carbon emission --- stress–strain curves --- outrigger wall --- multiple openings --- deep beam --- stiffness --- shear strength --- tall building --- inverted multi tee --- prestressed concrete --- precast concrete --- structural performance --- flexural analysis --- self-compacting concrete --- non-destructive test methods --- ultrasonic pulse velocity test --- surface hardness test --- pull-out test --- maturity test --- within-test variability --- normal vibrated concrete --- concrete structures --- beams & --- girders --- torsion --- high-strength concrete --- prestressing --- traditional slabs --- ceramic-reinforced slabs --- shear response --- cyclic loading --- natural fiber-reinforced polymers --- NFRP --- computational design --- tailored fiber placement --- coreless filament winding --- rapid prototyping --- industry 4.0 --- lightweight structure --- Geopolymer --- Alkali activated --- tensile strength --- deformability --- experimental study --- analytical model --- reinforced concrete --- beams --- fly ash alkali activated --- bending --- thin-walled I-section --- continuous beam --- local buckling --- longitudinal stress variation --- design ultimate resistance of the cross-section --- Rudolf Steiner --- anthroposophy --- architecture --- Goetheanum --- double-steel-concrete composite shear walls --- axial and bending capacity --- failure characteristic --- n/a --- stress-strain curves
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The Special Issue, “Architectural Structure,” aims to gather general advances in human-made constructions which simultaneously are driven by aesthetic and structural engineering considerations. This Special Issue brings together twelve contributions covering the following topics: analysis of architectural typologies; the study of the mechanical performance of structural materials, structural systems and components; and the proposal of techniques to evaluate the mechanical performance in existing structures and new construction techniques.
recycled aggregate concrete --- block masonry --- compressive strength --- carbon emission --- stress–strain curves --- outrigger wall --- multiple openings --- deep beam --- stiffness --- shear strength --- tall building --- inverted multi tee --- prestressed concrete --- precast concrete --- structural performance --- flexural analysis --- self-compacting concrete --- non-destructive test methods --- ultrasonic pulse velocity test --- surface hardness test --- pull-out test --- maturity test --- within-test variability --- normal vibrated concrete --- concrete structures --- beams & --- girders --- torsion --- high-strength concrete --- prestressing --- traditional slabs --- ceramic-reinforced slabs --- shear response --- cyclic loading --- natural fiber-reinforced polymers --- NFRP --- computational design --- tailored fiber placement --- coreless filament winding --- rapid prototyping --- industry 4.0 --- lightweight structure --- Geopolymer --- Alkali activated --- tensile strength --- deformability --- experimental study --- analytical model --- reinforced concrete --- beams --- fly ash alkali activated --- bending --- thin-walled I-section --- continuous beam --- local buckling --- longitudinal stress variation --- design ultimate resistance of the cross-section --- Rudolf Steiner --- anthroposophy --- architecture --- Goetheanum --- double-steel-concrete composite shear walls --- axial and bending capacity --- failure characteristic --- n/a --- stress-strain curves
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The Special Issue, “Architectural Structure,” aims to gather general advances in human-made constructions which simultaneously are driven by aesthetic and structural engineering considerations. This Special Issue brings together twelve contributions covering the following topics: analysis of architectural typologies; the study of the mechanical performance of structural materials, structural systems and components; and the proposal of techniques to evaluate the mechanical performance in existing structures and new construction techniques.
History of engineering & technology --- recycled aggregate concrete --- block masonry --- compressive strength --- carbon emission --- stress-strain curves --- outrigger wall --- multiple openings --- deep beam --- stiffness --- shear strength --- tall building --- inverted multi tee --- prestressed concrete --- precast concrete --- structural performance --- flexural analysis --- self-compacting concrete --- non-destructive test methods --- ultrasonic pulse velocity test --- surface hardness test --- pull-out test --- maturity test --- within-test variability --- normal vibrated concrete --- concrete structures --- beams & --- girders --- torsion --- high-strength concrete --- prestressing --- traditional slabs --- ceramic-reinforced slabs --- shear response --- cyclic loading --- natural fiber-reinforced polymers --- NFRP --- computational design --- tailored fiber placement --- coreless filament winding --- rapid prototyping --- industry 4.0 --- lightweight structure --- Geopolymer --- Alkali activated --- tensile strength --- deformability --- experimental study --- analytical model --- reinforced concrete --- beams --- fly ash alkali activated --- bending --- thin-walled I-section --- continuous beam --- local buckling --- longitudinal stress variation --- design ultimate resistance of the cross-section --- Rudolf Steiner --- anthroposophy --- architecture --- Goetheanum --- double-steel-concrete composite shear walls --- axial and bending capacity --- failure characteristic --- recycled aggregate concrete --- block masonry --- compressive strength --- carbon emission --- stress-strain curves --- outrigger wall --- multiple openings --- deep beam --- stiffness --- shear strength --- tall building --- inverted multi tee --- prestressed concrete --- precast concrete --- structural performance --- flexural analysis --- self-compacting concrete --- non-destructive test methods --- ultrasonic pulse velocity test --- surface hardness test --- pull-out test --- maturity test --- within-test variability --- normal vibrated concrete --- concrete structures --- beams & --- girders --- torsion --- high-strength concrete --- prestressing --- traditional slabs --- ceramic-reinforced slabs --- shear response --- cyclic loading --- natural fiber-reinforced polymers --- NFRP --- computational design --- tailored fiber placement --- coreless filament winding --- rapid prototyping --- industry 4.0 --- lightweight structure --- Geopolymer --- Alkali activated --- tensile strength --- deformability --- experimental study --- analytical model --- reinforced concrete --- beams --- fly ash alkali activated --- bending --- thin-walled I-section --- continuous beam --- local buckling --- longitudinal stress variation --- design ultimate resistance of the cross-section --- Rudolf Steiner --- anthroposophy --- architecture --- Goetheanum --- double-steel-concrete composite shear walls --- axial and bending capacity --- failure characteristic
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The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.
Technology: general issues --- History of engineering & technology --- ultrahigh-performance concrete --- nanosilica --- dynamic light scattering --- zeta potential --- pore solution --- alkali-activator --- GGBFS --- Na2O content --- Ms (SiO2/Na2O) --- workability --- setting time --- steel fiber --- fiber content --- aspect ratio --- toughness index --- high-strength concrete --- fibers --- smart materials --- fiber/matrix bond --- physical properties --- heat treatment --- alkali-activated material --- calcium sulfoaluminate-based expansive additive --- concrete shrinkage --- modulus of elasticity --- shrinkage stress --- SIFRCC --- fiber volume fraction --- direct tensile strength --- energy absorption capacity --- direct tensile test --- carbon nanotubes --- cement-based materials --- concrete infrastructure --- graphene --- graphene oxide --- mechanical strength --- nanomaterials --- nano-Al2O3 --- nano-Fe2O3 --- nano-SiO2 --- nano-TiO2 --- smart infrastructure --- slurry-infiltrated fiber-reinforced cementitious composite --- high-performance fiber-reinforced cementitious composite --- compressive stress --- stress-strain relationship --- filling slurry matrix --- bio-slime --- sulfate attack --- chloride attack --- service life --- multi-layer diffusion --- repair --- concrete --- dynamic compression --- Split Hopkinson Pressure Bars (SPHB) --- brittle materials --- simulation --- calcined zeolite sand --- ultra-high-performance concrete --- pre-wetted --- autogenous shrinkage --- internal curing --- reactive powder concrete --- strength --- basalt fibers --- abrasion --- porosity --- microscopic image processing --- X-ray CT analysis --- porous cementitious materials --- 3D tomographic image --- CO2 curing --- size effect --- colloidal silica --- cement-based material --- casting method --- ultra-high performance fiber-reinforced concrete --- densified silica fume --- agglomeration --- pozzolanic reaction --- densification --- alternative alkali-activated material --- ground granulated blast-furnace slag --- strength development --- CSA expansive additive --- ultrasonic pulse velocity --- temperature --- high performance concrete (HPC) --- C-shape magnetic probe test --- fibre orientation angle --- flexural test --- attenuation factor --- ultra-high-performance steel fiber-reinforced concrete --- multiscale finite element modeling --- multi-point constraint --- multi-scale interface connection --- concrete damage plasticity model --- ABAQUS --- ultra high-performance concrete (UHPC) --- supplementary cementitious materials (SCMs) --- sustainability --- compressive strength --- flowability --- shrinkage --- railway sleeper --- static bending test --- numerical simulation --- structural performance --- high performance fiber reinforced concrete (HPFRC) --- polypropylene fiber (PP) --- polyvinyl alcohol fiber (PVA) --- residual flexural strength --- splitting tensile strength --- ultrahigh-performance concrete --- nanosilica --- dynamic light scattering --- zeta potential --- pore solution --- alkali-activator --- GGBFS --- Na2O content --- Ms (SiO2/Na2O) --- workability --- setting time --- steel fiber --- fiber content --- aspect ratio --- toughness index --- high-strength concrete --- fibers --- smart materials --- fiber/matrix bond --- physical properties --- heat treatment --- alkali-activated material --- calcium sulfoaluminate-based expansive additive --- concrete shrinkage --- modulus of elasticity --- shrinkage stress --- SIFRCC --- fiber volume fraction --- direct tensile strength --- energy absorption capacity --- direct tensile test --- carbon nanotubes --- cement-based materials --- concrete infrastructure --- graphene --- graphene oxide --- mechanical strength --- nanomaterials --- nano-Al2O3 --- nano-Fe2O3 --- nano-SiO2 --- nano-TiO2 --- smart infrastructure --- slurry-infiltrated fiber-reinforced cementitious composite --- high-performance fiber-reinforced cementitious composite --- compressive stress --- stress-strain relationship --- filling slurry matrix --- bio-slime --- sulfate attack --- chloride attack --- service life --- multi-layer diffusion --- repair --- concrete --- dynamic compression --- Split Hopkinson Pressure Bars (SPHB) --- brittle materials --- simulation --- calcined zeolite sand --- ultra-high-performance concrete --- pre-wetted --- autogenous shrinkage --- internal curing --- reactive powder concrete --- strength --- basalt fibers --- abrasion --- porosity --- microscopic image processing --- X-ray CT analysis --- porous cementitious materials --- 3D tomographic image --- CO2 curing --- size effect --- colloidal silica --- cement-based material --- casting method --- ultra-high performance fiber-reinforced concrete --- densified silica fume --- agglomeration --- pozzolanic reaction --- densification --- alternative alkali-activated material --- ground granulated blast-furnace slag --- strength development --- CSA expansive additive --- ultrasonic pulse velocity --- temperature --- high performance concrete (HPC) --- C-shape magnetic probe test --- fibre orientation angle --- flexural test --- attenuation factor --- ultra-high-performance steel fiber-reinforced concrete --- multiscale finite element modeling --- multi-point constraint --- multi-scale interface connection --- concrete damage plasticity model --- ABAQUS --- ultra high-performance concrete (UHPC) --- supplementary cementitious materials (SCMs) --- sustainability --- compressive strength --- flowability --- shrinkage --- railway sleeper --- static bending test --- numerical simulation --- structural performance --- high performance fiber reinforced concrete (HPFRC) --- polypropylene fiber (PP) --- polyvinyl alcohol fiber (PVA) --- residual flexural strength --- splitting tensile strength
Choose an application
The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.
Technology: general issues --- History of engineering & technology --- ultrahigh-performance concrete --- nanosilica --- dynamic light scattering --- zeta potential --- pore solution --- alkali-activator --- GGBFS --- Na2O content --- Ms (SiO2/Na2O) --- workability --- setting time --- steel fiber --- fiber content --- aspect ratio --- toughness index --- high-strength concrete --- fibers --- smart materials --- fiber/matrix bond --- physical properties --- heat treatment --- alkali-activated material --- calcium sulfoaluminate-based expansive additive --- concrete shrinkage --- modulus of elasticity --- shrinkage stress --- SIFRCC --- fiber volume fraction --- direct tensile strength --- energy absorption capacity --- direct tensile test --- carbon nanotubes --- cement-based materials --- concrete infrastructure --- graphene --- graphene oxide --- mechanical strength --- nanomaterials --- nano-Al2O3 --- nano-Fe2O3 --- nano-SiO2 --- nano-TiO2 --- smart infrastructure --- slurry-infiltrated fiber-reinforced cementitious composite --- high-performance fiber-reinforced cementitious composite --- compressive stress --- stress-strain relationship --- filling slurry matrix --- bio-slime --- sulfate attack --- chloride attack --- service life --- multi-layer diffusion --- repair --- concrete --- dynamic compression --- Split Hopkinson Pressure Bars (SPHB) --- brittle materials --- simulation --- calcined zeolite sand --- ultra-high-performance concrete --- pre-wetted --- autogenous shrinkage --- internal curing --- reactive powder concrete --- strength --- basalt fibers --- abrasion --- porosity --- microscopic image processing --- X-ray CT analysis --- porous cementitious materials --- 3D tomographic image --- CO2 curing --- size effect --- colloidal silica --- cement-based material --- casting method --- ultra-high performance fiber-reinforced concrete --- densified silica fume --- agglomeration --- pozzolanic reaction --- densification --- alternative alkali-activated material --- ground granulated blast-furnace slag --- strength development --- CSA expansive additive --- ultrasonic pulse velocity --- temperature --- high performance concrete (HPC) --- C-shape magnetic probe test --- fibre orientation angle --- flexural test --- attenuation factor --- ultra-high-performance steel fiber-reinforced concrete --- multiscale finite element modeling --- multi-point constraint --- multi-scale interface connection --- concrete damage plasticity model --- ABAQUS --- ultra high-performance concrete (UHPC) --- supplementary cementitious materials (SCMs) --- sustainability --- compressive strength --- flowability --- shrinkage --- railway sleeper --- static bending test --- numerical simulation --- structural performance --- high performance fiber reinforced concrete (HPFRC) --- polypropylene fiber (PP) --- polyvinyl alcohol fiber (PVA) --- residual flexural strength --- splitting tensile strength
Choose an application
The innovations in construction materials that have been made due to the development of different varieties of concrete have led to innovations in structural applications and design. This Special Issue mainly focuses on state-of-the-art research progress in high-performance concrete, including the effect and characteristics of fibers on the properties of high-performance concrete, the CO2 curing efficiency of high-performance cement composites, and the effect of nano materials when used in ultra-high-performance concrete. This Special Issue also contains two comprehensive review articles covering the following topics: the role of supplementary cementitious materials in ultra-high-performance concrete and recent progress in nanomaterials in cement-based materials. Readers working towards conducting research on innovative construction materials will be exposed to findings related to this topic in this Special Issue.
ultrahigh-performance concrete --- nanosilica --- dynamic light scattering --- zeta potential --- pore solution --- alkali-activator --- GGBFS --- Na2O content --- Ms (SiO2/Na2O) --- workability --- setting time --- steel fiber --- fiber content --- aspect ratio --- toughness index --- high-strength concrete --- fibers --- smart materials --- fiber/matrix bond --- physical properties --- heat treatment --- alkali-activated material --- calcium sulfoaluminate-based expansive additive --- concrete shrinkage --- modulus of elasticity --- shrinkage stress --- SIFRCC --- fiber volume fraction --- direct tensile strength --- energy absorption capacity --- direct tensile test --- carbon nanotubes --- cement-based materials --- concrete infrastructure --- graphene --- graphene oxide --- mechanical strength --- nanomaterials --- nano-Al2O3 --- nano-Fe2O3 --- nano-SiO2 --- nano-TiO2 --- smart infrastructure --- slurry-infiltrated fiber-reinforced cementitious composite --- high-performance fiber-reinforced cementitious composite --- compressive stress --- stress-strain relationship --- filling slurry matrix --- bio-slime --- sulfate attack --- chloride attack --- service life --- multi-layer diffusion --- repair --- concrete --- dynamic compression --- Split Hopkinson Pressure Bars (SPHB) --- brittle materials --- simulation --- calcined zeolite sand --- ultra-high-performance concrete --- pre-wetted --- autogenous shrinkage --- internal curing --- reactive powder concrete --- strength --- basalt fibers --- abrasion --- porosity --- microscopic image processing --- X-ray CT analysis --- porous cementitious materials --- 3D tomographic image --- CO2 curing --- size effect --- colloidal silica --- cement-based material --- casting method --- ultra-high performance fiber-reinforced concrete --- densified silica fume --- agglomeration --- pozzolanic reaction --- densification --- alternative alkali-activated material --- ground granulated blast-furnace slag --- strength development --- CSA expansive additive --- ultrasonic pulse velocity --- temperature --- high performance concrete (HPC) --- C-shape magnetic probe test --- fibre orientation angle --- flexural test --- attenuation factor --- ultra-high-performance steel fiber-reinforced concrete --- multiscale finite element modeling --- multi-point constraint --- multi-scale interface connection --- concrete damage plasticity model --- ABAQUS --- ultra high-performance concrete (UHPC) --- supplementary cementitious materials (SCMs) --- sustainability --- compressive strength --- flowability --- shrinkage --- railway sleeper --- static bending test --- numerical simulation --- structural performance --- high performance fiber reinforced concrete (HPFRC) --- polypropylene fiber (PP) --- polyvinyl alcohol fiber (PVA) --- residual flexural strength --- splitting tensile strength
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