MLL242: Difference between revisions
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| credits = 4 | | credits = 4 | ||
| credit_structure = 3-0-2 | | credit_structure = 3-0-2 | ||
| pre_requisites = CML100 | | pre_requisites = [[CML100]] | ||
| overlaps = TXL110 | | overlaps = [[TXL110]] | ||
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== MLL242 : Introduction to polymeric Materials == | == MLL242 : Introduction to polymeric Materials == | ||
Different classes of polymers and their nomenclature, molecular weights, their significance and methods for their determination; glass transition temperature, crystallinity, and morphology; condensation and addition polymerization, kinetics and reactivity ratios; polymerization methods-bulk, solution, suspension and emulsion, inorganic polymers, surface functionalization, additives and reinforcements for polymers, concept of blends, alloys and composites, general polymer processing techniques, commodity plastics and engineering polymers, recycling and reuse. | Different classes of polymers and their nomenclature, molecular weights, their significance and methods for their determination; glass transition temperature, crystallinity, and morphology; condensation and addition polymerization, kinetics and reactivity ratios; polymerization methods-bulk, solution, suspension and emulsion, inorganic polymers, surface functionalization, additives and reinforcements for polymers, concept of blends, alloys and composites, general polymer processing techniques, commodity plastics and engineering polymers, recycling and reuse. | ||
Latest revision as of 16:40, 14 April 2026
| MLL242 | |
|---|---|
| Introduction to polymeric Materials | |
| Credits | 4 |
| Structure | 3-0-2 |
| Pre-requisites | CML100 |
| Overlaps | TXL110 |
MLL242 : Introduction to polymeric Materials
Different classes of polymers and their nomenclature, molecular weights, their significance and methods for their determination; glass transition temperature, crystallinity, and morphology; condensation and addition polymerization, kinetics and reactivity ratios; polymerization methods-bulk, solution, suspension and emulsion, inorganic polymers, surface functionalization, additives and reinforcements for polymers, concept of blends, alloys and composites, general polymer processing techniques, commodity plastics and engineering polymers, recycling and reuse.