The Effects of Steel Fiber and Nano-SiO2 on the Cyclic Flexural Behavior of Reinforced LWAC Beams
활용도 Analysis
논문 Analysis
연구자 Analysis
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The Effects of Steel Fiber and Nano-SiO2 on the Cyclic Flexural Behavior of Reinforced LWAC Beams' 의 참고문헌
The effect of steel fibres on the earthquake-resistant design of reinforced concrete structures
The Influence of Amount and Aspect Ratio of Fibers on Shear Behaviour of Steel Fiber Reinforced Concrete
Seismic response of rc columns with smooth reinforcement. Part II: Cyclic tests
Performance and modelling of steel fibre reinforced piles under seismic loading
Monotonic and cyclic behaviour of lightweight concrete beams with and without steel fiber reinforcement
Modification of cement-based materials with nanoparticles
Mechanical, toughness, bond and durability-related properties of lightweight concrete reinforced with steel fibres
Lightweight aggregate concrete fiber reinforcement-a review
Influence of nano-silica agglomeration on microstructure and properties of the hardened cement-based materials
Influence of fiber reinforcement on strength and toughness of all-lightweight concrete
Hysteretic energy and damping capacity of flexural elements constructed with different concrete strengths
How nanotechnology can change the concrete world
Flexural behaviour of steel fibre-reinforced concrete under cyclic loading
Fibre reinforced concrete: New design perspectives
FEMA 461, Interim testing protocols for determining the seismic performance characteristics of structural and nonstructural components
Experimental study on segregation resistance of <TEX>$nanoSiO_2$</TEX> fly ash lightweight aggregate concrete
Experimental evaluation of the effects of reverse cyclic loading rate on the mechanical behavior of reinforced SCC beams
Eurocode 8: Design of structures for earthquake resistance, Part 1: General rules, seismic actions and rules for buildings
Effect of type, size, and dosage of nanosilica and microsilica on properties of cement paste and mortar
Effect of the particle size of nanosilica on the compressive strength and the optimum replacement content of cement mortar containing nano-<TEX>$SiO_2$</TEX>
Effect of nano-silica on the mechanical and transport properties of lightweight concrete
Characteristics of cement mortar with nano-<TEX>$SiO_2$</TEX> particles
Behavior of high strength fiberreinforced concrete beams under cyclic loading
Behavior of fiber-reinforced concrete beams under cyclic loading
Application of nanotechnology in construction
ASTM C469, Standard test method for static modulus of elasticity and Poisson's ratio of concrete in compression
ASTM C39, Standard test method for compressive strength of cylindrical concrete specimens
ASTM C330, Standard specification for lightweight aggregates for structural concrete
ACI Committee 318, Building code requirements for structural concrete (ACI318-11) and commentary, ACI 318
[2011]
ACI Committee 211, Standard practice for selecting proportions for structural lightweight concrete, ACI 211.2
[1998]
A study of multiple effects of nano-silica and hybrid fibres on the properties of Ultra-High Performance Fibre Reinforced Concrete (UHPFRC) incorporating waste bottom ash (WBA)
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The Effects of Steel Fiber and Nano-SiO2 on the Cyclic Flexural Behavior of Reinforced LWAC Beams'
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