Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete
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Stainless Steel Wires-Engineered Multifunctional Ultra-High Performance Concrete
Wang, Xinyue; Dong, Sufen; Han, Baoguo
Taylor & Francis Ltd
01/2025
372
Mole
9781032232386
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1. Design principle and fabrication of stainless steel wires-engineered multifunctional ultra-high performance concrete. 2. Flexural and compressive properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 3. Bending and fracture properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 4. Impact properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 5. Fatigue properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 6. Electrical and self-sensing properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires-engineered ultra-high performance concrete. 9. Stainless steel wires-engineered multifunctional ultra-high performance concrete incorporating nano fillers. 10. Stainless steel wires-engineered multifunctional ultra-high performance concrete incorporating steel fibers. 11. Stainless steel wires-engineered multifunctional ultra-high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires-engineered multifunctional ultra-high performance concrete.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Fibre reinforced concrete;GPC;Polymers in concrete;High Strength Concrete;High Performance Concrete;Concrete admixtures;SFRC;Thermal concrete;Flexural Stress Strain Curves;Flexural Toughness;Silica Fume;Load Displacement Curves;Interface Transition Zone;Stress Strain Curves;Equivalent Circuit;Electrical Resistivity;DC Resistivity;Monotonic Compressive Load;AC Resistivity;Steel Fibers;Interface Bond Strength;Load CMOD Curve;Flexural Strength;UHPC;Calcium Silicate Hydrate Gel;Descending Stage;Strain Sensitivity;Conductive Pathway;Wear Mass Loss;Maximum Stress Level;Compressive Fatigue;Longitudinal Peak Strain;Load Deflection Curves
1. Design principle and fabrication of stainless steel wires-engineered multifunctional ultra-high performance concrete. 2. Flexural and compressive properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 3. Bending and fracture properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 4. Impact properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 5. Fatigue properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 6. Electrical and self-sensing properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 7. Thermal and electrothermal properties of stainless steel wires-engineered multifunctional ultra-high performance concrete. 8. Wear resistance, damping and electromagnetic properties of stainless steel wires-engineered ultra-high performance concrete. 9. Stainless steel wires-engineered multifunctional ultra-high performance concrete incorporating nano fillers. 10. Stainless steel wires-engineered multifunctional ultra-high performance concrete incorporating steel fibers. 11. Stainless steel wires-engineered multifunctional ultra-high performance concrete fabricating with sea water and sea sand. 12. Future development and challenges of stainless steel wires-engineered multifunctional ultra-high performance concrete.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Fibre reinforced concrete;GPC;Polymers in concrete;High Strength Concrete;High Performance Concrete;Concrete admixtures;SFRC;Thermal concrete;Flexural Stress Strain Curves;Flexural Toughness;Silica Fume;Load Displacement Curves;Interface Transition Zone;Stress Strain Curves;Equivalent Circuit;Electrical Resistivity;DC Resistivity;Monotonic Compressive Load;AC Resistivity;Steel Fibers;Interface Bond Strength;Load CMOD Curve;Flexural Strength;UHPC;Calcium Silicate Hydrate Gel;Descending Stage;Strain Sensitivity;Conductive Pathway;Wear Mass Loss;Maximum Stress Level;Compressive Fatigue;Longitudinal Peak Strain;Load Deflection Curves
