Concrete Technology


Lecture 1 - Production and Composition


Lecture 2 - Structure and Hydration


Lecture 3 - Structure and Hydration


Lecture 4 - Properties and Tests


Lecture 5 - Types and Use


Lecture 6 - Aggregates (Size, Shape)


Lecture 7 - Packing, FM, SM


Lecture 8 - Properties


Lecture 9 - Chemical Admixtures


Lecture 10 - Chemical Admixtures


Lecture 11 - Mineral Admixtures


Lecture 12 - Mineral Admixtures


Lecture 13 - Mineral Admixtures


Lecture 14 - Mix Proportioning of Concrete: General Principles


Lecture 15 - Mix design of Concrete: General and IS Method


Lecture 16 - Mix Design of Concrete: Is Example and British (DOE) Method


Lecture 17 - Mix Design of concrete: ACI 211 Method


Lecture 18 - Mix Design of concrete: Packing Density, Rheology


Lecture 19 - Batching and Mixing of concrete: General Principles


Lecture 20 - RMC and Transporting Concrete


Lecture 21 - Workability and Pumping of Concrete


Lecture 22 - Compaction and Curing Concrete


Lecture 23 - Strength of Concrete: Factors Affecting


Lecture 24 - Strength of Concrete: Aggregate Contribution


Lecture 25 - Strength of Concrete: Factors Affecting Test Results


Lecture 26 - Mechanical Properties of Concrete:Elastic Moduls, Poision'Ratio, Fatigue, Impact


Lecture 27 - Creep of Concrete


Lecture 28 - Creep and Shrinkage of Concrete


Lecture 29 - Shrinkage of Concrete


Lecture 30 - Shrinkage of Concrete


Lecture 31 - Fundamental Concepts, Degradation Process, Attacks


Lecture 32 - Frost Action and Rebar Corrosion


Lecture 33 - Carbonation and Chloride Affect


Lecture 34 - Rebar Corrosion


Lecture 35 - Rebar Corrosion and General Strateggy


Lecture 36 - High Strength Concrete


Lecture 37 - High Strength Matrics and SCC


Lecture 38 - Self Compacting Concrete


Lecture 39 - Fiber Concrete


Lecture 40 - Fiber and Roller Compacted Concrete


Lecture 41 - Special Concrete and Sustainability