15PO31T: Polymer Science Polymer 3rd Sem Syllabus for Diploma DTE Karnataka C15 Scheme

Polymer Science detail DTE Kar Diploma syllabus for Polymer Technology (PO), C15 scheme is extracted from DTE Karnataka official website and presented for diploma students. The course code (15PO31T), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below. The syllabus PDFs can be downloaded from official website.

For all other polymer 3rd sem syllabus for diploma c15 scheme dte karnataka you can visit Polymer 3rd Sem Syllabus for Diploma C15 Scheme DTE Karnataka Subjects. The detail syllabus for polymer science is as follows.

Pre-requisites:

Applied Science and Chemistry.

Course Objectives:

1. To introduce the basic concepts of macromolecules.
2. To develop an understanding of mechanisms of different polymerization methods.
3. To impart knowledge on characters governing the physical properties of polymers.
4. To develop an understanding on various reactions of polymers.

Course Outcomes:

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UNIT I: CHEMISTRY OF MACROMOLECULES 10 hrs

Classification of polymers – Functionality of compounds – Chemistry of polymerization -Chain polymerization – Free Radical polymerization – Initiator – Chain transfer agents -Inhibitors – Ionic polymerization – Cationic polymerization – Anionic polymerization -Coordination polymerization – Step polymerization – Polycondensation polymerization -Polyaddition polymerization – Ring opening polymerization.

UNIT II: COPOLYMERISATION AND POLYMERISATION TECHNIQUES 10 hrs

Co-polymerization -Free Radical copolymerization,- ionic co-polymerization – copolycondensation – polymerization techniques – Bulk polymerization – Solution polymerization – Suspension polymerization – Emulsion polymerization- plasma polymerization-mechanism of above polymerization

UNIT III: POLYMER MOLECULAR WEIGHTS 6 hrs

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UNIT IV: POLYMER SOLUTIONS 6 hrs

The process of polymer dissolution – viscosity of dilute polymer solution -. Microstructure based on geometrical structure – linear branched & cross linked polymers – random, alternating block and graft copolymers – stereo regular polymers – optical isomerism and geometrical isomerism in polymer molecules

UNIT V: POLYMER CRYSTALLISATION AND GLASS TRANSITION TEMPERATURE 12 hrs

Polymer crystallization – Degree of crystalline – Theory of Polymer crystallization – effect of crystalline on the properties of polymers- Glass transition temperature – factors influencing the glass transition temperature – Importance of glass transition temperature – Determination of glass transition temperature – Dialtometric method.

UNIT VI: POLYMER REACTIONS 8 hrs

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Text Books:

1. Mauric Moton – Rubber Technology – Robert Krieger Publishing Co.- 1973.
2. I Franta, Elastomers and Rubber compounding materials -Elsevier -1989
3. Indian Rubber Institute Rubber Engineering – – Tata McGraw Hill Publishing Co. New Delhi 1998
4. Vanderbilt- Hand sbook of Rubber
5. V.R.Gowarikar, N.V.Viswanathan & Jayadev Sridhar – Polymer Science – New age international publishers – 1986.
6. Fred W.Billmeyer – Text Book of Polymer Science – published by john Wiley and sons Asia PTE LTD. Singapore – 2009

Reference Books:

1. C.M.Blow – Rubber Technology and Manufacture – Butterworths Publication – 1971.
2. G.Alliger – Vulcanization of Elastomers – Reinhold Publishing co. 1965.
3. Harry Baron – Modern Synthetic Rubbers.
4. Anilkumar & S.K.Gupta -Fundamentals of Polymer Science – Tata McGraw Hill Pub. Co. 1978.
5. Odian.G – Principles of Polymerisation – McGraw-Hill, New York – 1970
6. Blackley & Halsted – Emulsion Polymerisations: Theory and Practice – McGraw-Hill, New York – 1975
7. Murugan N – Fundamentals of Polymer Science- GES Publications- 2007
8. I.Herman S.Haufman and Joseph J.Falce – Introduction to Polymer Science and Technology – Wiley Inter Science Publications- 1977.
9. Bawsn,C.E.H-The Chemistry of High Polymers – Inter science, New York-1948.
10. Transford, C – Physical Chemistry of Macromolecules – Wiley Inter Science – New York – 1961.
11. Pinner, S.H, Pergamon A – Practical Course in Polymer Chemistry – New York -1961.
12. P.Bahadur, N.V.Sastry – Principles of Polymer science – Narosa Publishing House, New Delhi – 2002.

e-Resources:

1. https://en.wikipedia.org/wiki/Polymer science
2. https://books.google.co.in/books
3. https://books.google.co.in/books?id=56R-6Wyyo6IC&printsec=frontcover&dq=polymer+science&hl=en&sa=X&ved=0CEYQ6A EwB2oVChMI9u2RnPzrxgIVASKmCh2mywPX#v=onepage&q=polymer%20science& f=false
4. https://www.youtube.com/watch?v=LpLdziIwVW0
5. http://freevideolectures.com/Course/3070/Science-and-Technology-of-Polymers
6. https://www.youtube.com/watch?v=-ZRY9JDhBM4SUGGESTED

LIST OF STUDENT ACTIVITYS

Note: the following activities or similar activities for assessing CIE (IA) for 5 marks (Any one)

1. Each student should do any one of the following type activity or any other similar activity related to the course and before conduction, get it approved from concerned Teacher and HOD.
2. Each student should conduct different activity and no repeating should occur

1. Make Visit to nearest laboratory of an industry and identify the different polymers and monomers and make list of different chemicals which are used in the laboratory ,Submit hand written report of 500 words
2. Each student will select apparatus and draw & label main parts of instruments to be used. Measure and record application of particular an instrument.
3. To deliver talk on polymerization techniques, polymer degradation, Tg, Molecular weight concept etc.
4. List out different chemicals in department laboratory and report application of chemicals.
5. Motivate student to take case study on particular activity to inculcate self and continues learning, Submit hand written report of 500 words on selected case study
6. To gather information about new developments of polymers

Course Delivery:

The Course will be delivered through lectures, classroom interaction, animations, group discussion, exercises and assignments.

Note to IA verifier:

The following documents to be verified by CIE verifier at the end of semester

1. Blue books ( 20 marks)
2. Student suggested activities report for 5 marks and assessment
3. Student feedback on course regarding Effectiveness of Delivery of instructions & Assessment Methods.

Model Question Paper:

(CIE)

1. Define the concept of monomer, polymer (5) OR
2. Explain free radical polymerization (5)
1. Discuss advantages and limitations of bulk, solution polymerization (5) OR
2. Demonstrate the concept of copolymers (5)
3. Explain free radical polymerization(5)
4. Describe suspension polymerization techniques.(5)

Model Question Paper:

PART-A 6×5=30 marks

1. Explain free radical polymerization
2. Describe step polymerization and addition polymerization
3. Explain free radical , poly condensation polymerization
4. Lists the advantages and limitations of suspension and emulsion techniques
5. Explain GPC technique to determine the Mn average
6. Explain optical isomerism and geometrical isomerism
7. Discuss the theory of crystallization]
8. Illustrate the significance of Tg
9. Differentiate between polymer reactions – hydrolysis and acidolysis

PART-B 7×10=70 marks

1. Determine the number average molecular weight of a polymer
2. Discuss the relationship between viscosity and molecular weight of polymer
3. List out the factors influencing glass transition temperature
4. Explain the dilatometric method to determine Tg
5. Describe thermal degradation of polymers
6. Describe acidolysis and aminolysis
7. Discus steo and polycondesation with chemical reaction.
8. Explain ring opening polymerization with a suitable diagram.
9. Describe the mechanism of suspension polymerization
1. Differentiate between bulk and solution polymerisation
2. Write a brief note on plasma polymerization.

For detail syllabus of all other subjects of BE Polymer, C15 scheme do visit Polymer 3rd Sem syllabus for C15 scheme.

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