Advanced Polymer Concretes And Compounds
Contents
- State Of The Art In Polymer Concrete
- Nature Of Polymer Concrete
- Composition Of Polymer Concretes
- Types Of Polymer Concretes
- Epoxy Polymer Concrete
- Carbamide Polymer Concrete
- Acryl Polymer Concrete
- Furan Polymer Concrete
- Polyester Polymer Concrete
- Other Types Of Polymer Concrete
- Physical–Mechanical Properties Of Polymer Concrete
- Corrosion Resistance Of Polymer Concretes
- Water Resistance Of Polymer Concretes
- Epoxy And Polyester Polymer Concrete
- Intended Use Of Polymer Concretes
- Advanced Polymer Concretes And Compounds
- Advanced Polymer Concretes Based On Novel Binders
- Rubber Concrete With Vulcanized Polybutadiene Binder
- Polymer Concrete Based On A Vulcanized Polybutadiene Matrix
- Selection Of The Polymer Part
- Optimization Of Rubber Binder Viscosity
- Estimation Of Optimal Rubber Content
- Choice Of Hardening Agent For Rubber Matrix
- Planning Of Activator And Calcium-Containing Com ponents
- Of The Composition Rubber Matrix
Optimization Of The Rubber Matrix Composition
- For Strength
- Physical–Mechanical Properties
- Stress–Strain Relationship At Central Uniaxial Compression
- Temperature Effect
- Thermomechanical Destruction
- Summary
- Strength Of Reinforced
- Combined Reinforcement And Polymer Concrete Matrix
- Coefficient Of Thermal Linear Expansion
- Shrinkage Stress Of The Matrix
- Mechanical Bond And Adhesion Between Steel
- Reinforcement And The Matrix
- Load-Carrying Capacity At Eccentric Compression Load
- Shear Stress And Crack Formation At Bend
- Load-Carrying Capacity Of Beams At Bend In The
- Transverse Forces Zone
- Advanced Polymer Concretes And Compounds
- Phenomenological Model Of Inclined Crack Formation
- And Destruction
- Fiber-Reinforced
- Influence Of Particle Size Of Coarse Aggregates And
- Reinforcement Ratio Of Fibrous Strength
- Strength Of Fibrous With Various Kinds Of Fibers
- Summary
- Sample Materials