The effect of super absorbent polymers on the performance of immature cementitious mortars

Engineering

• Cementitious Mortar 100%
• Autogenous Shrinkage 100%
• Microstructural Feature 50%
• Research Project 50%
• Sustainable Development 50%
• Research Work 50%
• Microscale 50%
• Macroscale 50%
• Internal Curing 50%
• Ray Absorption 50%
• Mercury Intrusion Porosimetry 50%
• Curing Agent 50%
• Competitive Price 50%
• Durables 50%
• Strength Development 50%
• Reference Sample 50%
• Density Change 50%
• Composite Material 50%

Material Science

• Scanning Electron Microscopy 100%
• Density 100%
• Cementitious Material 100%
• Porosimetry 100%
• Desorption 100%
• Microscopy 100%
• Pore Size Distribution 100%
• Composite Material 100%
• Copolymer 100%

Keyphrases

• Cement Mortar 100%
• Superabsorbent Polymer 100%
• Mortar 37%
• Autogenous Shrinkage 25%
• Social Life 12%
• Scanning Electron Microscopy 12%
• Consumer Demand 12%
• Construction Industry 12%
• Microstructural Characteristics 12%
• Cementitious Materials 12%
• Sustainable Development 12%
• Economic Life 12%
• Polymer Mortar 12%
• Mercury Intrusion Porosimetry 12%
• Polymer Characterization 12%
• Internal Curing Agent 12%
• Competitive Price 12%
• New Composite Materials 12%
• Strength Development 12%
• Absorption-desorption 12%
• Acrylamide 12%
• Pore Size Distribution 12%
• Continuous Supply 12%
• Density Change 12%
• Acrylic Acid 12%
• Acrylic Acid Polymers 12%
• Copolymer 12%
• X-ray Absorption Method 12%
• Electron Microscopy Techniques 12%
• Microcrack Propagation 12%
• Microscale Characterization 12%
• Shrinkage Development 12%
• Polymer-based 12%