Lecture 1 - History and Importance of Rubber, Rubber Plantation: Cultivation and Harvesting, Challenges in Natural Rubber Production
Lecture 2 - Types of Rubber: Natural vs Synthetic, vs Specialty Rubbers
Lecture 3 - Applications of Rubber in Various Industries
Lecture 4 - Hyper-elasticity, Thermo-elasticity and Viscoelasticity: Three Basics Attributes of Rubbers
Lecture 5 - Structure-Property Correlation
Lecture 6 - Polymerization of Rubbers: Synthesis and Techniques
Lecture 7 - Modification of Rubbers: Chemical modification, TPE and blending
Lecture 8 - Vulcanization of Rubbers: Sulfur based Curing
Lecture 9 - Vulcanization of Rubbers: Peroxide and Other Curing System
Lecture 10 - Physical Testing: Static and Dynamic Mechanical Testing
Lecture 11 - Thermal Properties of Rubbers/Elastomers
Lecture 12 - Origin of Elasticity and Thermo-elasticity
Lecture 13 - Physics of Rubber Elasticity
Lecture 14 - Physics of Viscoelasticity - 1
Lecture 15 - Physics of Viscoelasticity - 2
Lecture 16 - Basics of Rheology of Rubbers and Practical Demonstration on Rubber Process Analyzer, Parallel Plate Rheometer, Mooney Viscometer, ODR and MDR
Lecture 17 - Rubber Compounding: Introduction to Rubber Compounding, its Significance, Types of Compounding Ingredients
Lecture 18 - Rubber Compounding: Anti-degradants (Antioxidants and Antiozonants)
Lecture 19 - Rubber Compounding: Fillers Reinforcing, Non-reinforcing, Special Fillers (Rubber Nanocomposites)
Lecture 20 - Rubber Compounding: Plasticizers and Process Oils
Lecture 21 - Rubber Compounding: Flame Retardants and Miscellaneous Ingredients
Lecture 22 - General Purpose Rubber: Natural Rubber - 1
Lecture 23 - General Purpose Rubber: Natural Rubber - 2 and Synthetic Isoprene Rubber
Lecture 24 - General Purpose Rubber: Styrene-Butadiene Rubber (SBR)
Lecture 25 - General Purpose Rubber: Isobutylene-Isoprene Rubber (IIR) / Butyl Rubber
Lecture 26 - General Purpose Rubber: NBR (Nitrile Butadiene Rubber), HNBR (Hydrogenated NBR), and XNBR (Carboxylated NBR)
Lecture 27 - General Purpose Rubber: Butadiene Rubber (BR)
Lecture 28 - General Purpose Rubber: Chloroprene Rubber / Neoprene (CR)
Lecture 29 - General Purpose Rubber: Ethylene Propylene Diene Monomer (EPDM) and Other Unsaturated Hydrocarbon Homopolymer Rubbers (Polypentenamers, Polyoctenamers, and Polynorbornenes)
Lecture 30 - Specialty Rubbers: Silicone Rubber (Q or VMQ)
Lecture 31 - Specialty Rubbers: Acrylic and Other Rubbers with Ester Side Chain ACM (Acrylic Copolymer Rubber), AEM (Ethylene Acrylate Rubber)
Lecture 32 - Specialty Rubbers: Polyurethane Rubbers
Lecture 33 - Specialty Rubbers: Fluoro Rubber (FKM) and Polyphosphazenes
Lecture 34 - Specialty Rubbers: Thermoplastic Rubber (TPR)
Lecture 35 - Specialty Rubbers: Thermoplastic Vulcanizates (TPV)
Lecture 36 - Specialty Rubbers: Miscellaneous Rubbery Materials (Polysulfides, Polyethers, and Halogenated Polyethylenes)
Lecture 37 - Rubber Processing: Mastication and Rubber Processing Stages
Lecture 38 - Mixing and Processing on Two-Roll Mill
Lecture 39 - Two-Roll Mill: Effect of Different Parameters
Lecture 40 - Internal Mixer
Lecture 41 - Moulding Equipment's
Lecture 42 - Engineering on Rubber Products: Tyres
Lecture 43 - Engineering on Rubber Products: Conveyer Belt
Lecture 44 - Engineering on Rubber Products: Transmission Belt
Lecture 45 - Engineering on Rubber Products: Hoses and Seals
Lecture 46 - Engineering on Rubber Products: Rubber Springs: Mounts and Isolators
Lecture 47 - Miscellaneous Rubber Products and Testing Procedures
Lecture 48 - Composites and its types
Lecture 49 - Reinforcement: Particulate
Lecture 50 - Reinforcement: Fiber
Lecture 51 - Synergism in Properties: Mechanical, Electrical and Morphological
Lecture 52 - Textile Technology: Fundamentals and Basic Terminology
Lecture 53 - Application of Textiles in Rubbers Industry (Rubber to Fabric Adhesion and Surface Treatment Included) and Practical Demonstration on Tensile, Tear, Compression, Hardness, Tension set, and Hysteresis
Lecture 54 - Concept of Adhesion
Lecture 55 - Adhesion Parameters: Surface Energy, Surface Roughness, and Spreading Coefficient
Lecture 56 - Rubber-based Adhesion Science and Technology
Lecture 57 - Rubber-based Adhesion Science and Technology
Lecture 58 - Rubber to Metal Bonding
Lecture 59 - Practical Demonstration on Adhesion
Lecture 60 - Finite Element Analysis (FEA) and its Application in the Manufacturing of Rubber Products
Lecture 61 - Hyper Elastic Models and their Applications in Simulation
Lecture 62 - Die Design and Modelling for Predicting Flow Behavior
Lecture 63 - FEA Based Damage Model and Lifetime Estimation
Lecture 64 - Demonstration on FEA in Rubber Metal Bonding
Lecture 65 - Current Advancements in Rubber
Lecture 66 - Innovations In Rubber Processing Techniques Possibilities of 3-D Printing
Lecture 67 - Computational Modelling in Rubber Technology
Lecture 68 - Role of Rubber in Sustainable Development Biodegradable and Green Rubber Regulatory
Lecture 69 - Industry Academia collaborations carer Opportunities and Start-up
