PL6004 - SPECIALITY POLYMERS (Syllabus) 2013-regulation Anna University
PL6004 - SPECIALITY POLYMERS (Syllabus) 2013-regulation Anna University
PL6004 |
SPECIALITY POLYMERS |
LPTC |
---|
3003
OBJECTIVES: To enable the students
• To know about the various structural features of a polymers that make them high temperature resistant and flame resistant.
• To understand the basics of conducting polymers, their synthesis, doping and applications.
• To learn the synthesis and applications of ionic polymers and ionomers and their applications
• To know about various specialty polymers that are used in telecommunications, biomedical, construction, and rocket propellants.
• To understand the basics of conducting polymers, their synthesis, doping and applications.
• To learn the synthesis and applications of ionic polymers and ionomers and their applications
• To know about various specialty polymers that are used in telecommunications, biomedical, construction, and rocket propellants.
UNIT I |
9 |
---|
High temperature and fire resistant polymers improving low performance polymers for hightemperature use – polymers, for low fire hazards – polymers for high temperature resistance– Fluoropolymers. Aromatic polymers, polyphenylene sulphide, polysulphones, polyesters, polyamides, polyketones, Heterocyclic polymers.
UNIT II |
9 |
---|
Polymers with electrical and electronic properties Conducting polymers, conducting mechanisms, polyacetylene, polyparaphenylene polypyrrole, organometallic polymers, photo conducting polymers, polymers in non-linear optics, polymers with piezpelectric pyroelectric and pyroelectric properties, photoresists for semi conductor fabrication
– liquid crystalline polymers.
UNIT III |
9 |
---|
Ionic Polymers – synthesis, physical properties and applications, ion- exchange resins Hydrophilicity, lonomers based on polyethylene, elastomeric ionomers. Ionomers
based on polystyrene, ionomers based on PTFE, ionomers with polyaromatic backbones, polyelectrolytes for ion exchange, polyelectrolytes based on carboxylates, polymers with integral ions, polyelectrolyte complexes. Biological and inorganic ionic polymers.
UNIT IV |
9 |
---|
Polymer concrete, polymer impregnated concrete ultra high modulus fibres, polymers for biomedical applications, polymeric binders for rocket propellants, polymer supported reagents.
UNIT V |
9 |
---|
Polymers in telecommunications and power transmission, polymers as insulators – electrical breakdown strength – capacitance, dielectric loss and cable alteration, polymers in telecommunications – submarine, cable insulation, low fire risk materials, polymers in power transmission – Optical fibre telecommunication cables.
TOTAL : 45 PERIODS
OUTCOMES:
Students shall have learnt about various aspects related to high temperature resistant and flame resistant polymers. Students must be able to select various polymers for specific applications like aerospace, telecommunications, biomedical etc.
TEXT BOOKS:
1. H.F.Mark, (Ed), Encyclopedia of polymer Science & Engineering, John Wiley & Sons, New York, 1989.
2. Matrin.T.Goosey, Plastics for Electronics, Elsevier, Applied Science, 1985.
2. Matrin.T.Goosey, Plastics for Electronics, Elsevier, Applied Science, 1985.
REFERENCES
1. R.W. Dyson, Specialty Polymers, Chapman & Hall, 2nd edition, 1998
2. Manas Chanda, Salil.K.Roy, Plastics Technology Hand book, 2nd edition, Marcel Dekker, New York, 1993.
2. Manas Chanda, Salil.K.Roy, Plastics Technology Hand book, 2nd edition, Marcel Dekker, New York, 1993.
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