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Smart Nanoconcretes and Cement-Based Materials

- Properties, Modelling and Applications

Forfatter: info mangler
Bog
  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Smart Nanoconcretes and Cement-Based Materials: Properties, Modelling and Applications explores the fundamental concepts and applications of smart nanoconcretes with self-healing, self-cleaning, photocatalytic, antibacterial, piezoelectrical, heating and conducting properties and how they are used in modern high-rise buildings, hydraulic engineering, highways, tunnels and bridges. This book is an important reference source for materials scientists and civil engineers who are looking to enhance the properties of smart nanomaterials to create stronger, more durable concrete.

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Detaljer
Størrelse og vægt
  • Vægt1090 g
  • coffee cup img
    10 cm
    book img
    15,2 cm
    22,9 cm

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    Cement Nanotechnology Construction materials Crystal growth Hydration Hysteresis Infrastructure Mathematical models Microstructure Nanoparticles. Radiation protection Reinforced concrete Concrete Photocatalysis Bacteria Thermal conductivity Thermochromism Mechanical properties Corrosion Smart structures Energy storage Micromechanics Thermal properties Bacillus subtilis Sustainability Self-healing materials smart Carbon nanotubes Nano-technology Bottom Up Approach Force Fields Nanomaterials Molecular Dynamics Simulations Health Monitoring Electromagnetic Shielding Durability Cement based Materials Mechanism Applications Nanomaterial Compressive Strength Factors Thermochromic Materials Self-Cleaning Photon Nanoparticle Top-Down Dissolution Neutron Building Energy Efficiency Self-healing Cracks Latent heat Hydrophobicity Graphene Oxide Nano-materials Mortar Reinforcement Smart Concrete Wall effect Piezoresistivity Carbon nanotube Self-healing Concrete Waste Materials Nano-concrete Attenuation Coefficient Carbonation Impedance Nano ZnO particles Anti-bacteria Advantages Nano-Material Aggregate Alternating current (AC) intensity Anti-Fouling Alternating magnetic field (AMF)Concrete Bioremediase-like protein Bio self-healing cement hydration Cement paste phases Carbon nanofiber aggregate CO2Degradation Capillary water Crack bridging Cementitious nanocomposite Ceramic Nanoparticles CSH phases Carbon nanofiber concrete Cementitious composite Carbon nanofibre Flexural Strength Elevated temperatures Gel Pores Concrete Pavements Gehlenite crystals green concrete Hydration of cement Interfacial strengthening Mechanical enhancement Loosening effect Nanoconcrete Lumped equivalent circuit Mortar coating Nanoseed Microencapsulated PCM Nucleation kinetics Multifunctional concrete Nano CSH colloids Organic Pigments Self-consolidating carbon nanofiber concrete Interlayer Water Reinforced concrete (RC)Compressive strength Structual health monitoring heat capacity Steric Stabilization Smart cement-based materials multifunction Nano-enhanced PCM Nanophotocatalyst Nano-SiO2Nano-clay Variable optical properties Microbially induced calcium carbonate precipitation Physical and mechanical properties Macroscopic CNTs Nanoencapsulated PCM Nano-engineered cement Nano-silica Nano-TiO2Nano-TiO2 particles self-sensing Particle Packing Density Waste ceramic recycled materials Wedging effect Strain sensing Volume Fraction
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