Keyphrases
Internal Curing
100%
Delayed Ettringite Formation
100%
Lightweight Aggregate
73%
Stainless Steel Strands
66%
Duplex Stainless Steel
66%
Natural Pozzolan
66%
Duplex
55%
High-strength Stainless Steel
55%
Mortar
51%
Prestressed Concrete pile
50%
Curing Performance
42%
Acoustic Nonlinearity
41%
Chloride
40%
High Strength
40%
Nonlinear Effects
40%
Impact Resonance
40%
Alkali-silica Reaction
38%
Prestressed Concrete Bridge
33%
Structural Performance
33%
Simulated Contamination
33%
Chloride Concentration
33%
Electrochemical Performance
33%
Steel Rebar Corrosion
33%
Surface Analysis
33%
Electrochemical Surface
33%
Moisture Transport
33%
Aggregate Efficiency
33%
National Literature
33%
Sulfide
33%
Transport Mechanism
33%
Transfer Length
33%
Development Length
33%
Flue Gas Desulfurization
33%
Bridge pile
33%
Fly Ash
33%
Safer Alternatives
33%
Resonance Spectroscopy
33%
Water-binding
33%
Sand
33%
Formation Damage
33%
Behavior Analysis
33%
Cement-based Materials
33%
Strain-hardening Cementitious Composites
33%
High-strength Lightweight Concrete
33%
Chilean
33%
Spectroscopic Techniques
33%
Corrosion-electrochemical Behavior
33%
National Survey
33%
Sealer
33%
Concrete Bridge Deck
33%
Engineering
Delayed Ettringite Formation
100%
Internal Curing
100%
Lightweight Aggregate
76%
Natural Pozzolans
66%
Nonlinearity
50%
High-Performance Concrete
38%
Electrochemical Corrosion
33%
Steel Surface
33%
Carbon Steel
33%
Rebar Corrosion
33%
Flue Gas Desulfurisation
33%
Cement-Based Material
33%
Concrete Bridges
33%
Formation Damage
33%
Lightweight Concrete
33%
Steel Rebar
33%
Bridge Decks
33%
Concrete Technology
33%
Concrete Durability
33%
Coastal Structure
33%
Strain Hardening
33%
Strand
33%
Duplex Stainless Steel
33%
Development Length
33%
Prestressed Concrete Pile
33%
Transfer Length
33%
Transport Mechanism
33%
Moisture Transport
33%
Cementitious Composite
33%
Compression Strength
29%
Compressive Strength
29%
Phase Composition
27%
Autogenous Shrinkage
25%
Acoustic Resonance
25%
Microscale
23%
Modulus of Elasticity
23%
Stainless Steel
22%
Microcracking
21%
Ordinary Portland Cement
18%
Steel Corrosion
16%
Chloride Concentration
16%
Chloride Content
16%
Corrosion Reaction
16%
Ray Photoelectron Spectroscopy
16%
Localized Corrosion
16%
Simulated Pore Solution
16%
Field-Emission Scanning Electron Microscopy
16%
Protective Layer
16%
Induced Corrosion
16%
Pore Solution
16%
Material Science
Phase Composition
100%
Compressive Strength
78%
Alkali Silica Reaction
66%
Pozzolan
66%
Prestressed Concrete
66%
Duplex Stainless Steel
66%
Stainless Steel
66%
Surface (Surface Science)
53%
Microcracking
50%
Elastic Moduli
50%
High Performance Concrete
50%
Ultimate Tensile Strength
38%
Flue Gas
33%
Silicon Dioxide
33%
Cement Hydration
33%
Particle Size Analysis
33%
Pore Size
33%
Precast Concrete
33%
Reaction in Concrete
33%
Work Hardening
33%
Surface Analysis
33%
Electrochemical Corrosion
33%
Steel Rebar
33%
Corrosion
33%
Concrete Technology
33%
Portland Cement
26%
Oxide Compound
22%
Feldspar
16%
Pore Structure
16%
Nuclear Magnetic Resonance
16%
Austenitic Steel
16%
Cementitious Material
14%
Carbon Steel
13%
304 Stainless Steel
8%
Shear Strength
8%
Reinforced Concrete
6%
Voltammetry
6%
Field Emission Scanning Electron Microscopy
6%
Dielectric Spectroscopy
6%
X-Ray Photoelectron Spectroscopy
6%
Thermogravimetric Analysis
5%
Calorimetry
5%
X-Ray Diffraction
5%
