PT2404 POLYMER PRODUCT DESIGN SYLLABUS | ANNA UNIVERSITY B.TECH POLYMER TECHNOLOGY 7TH SEM SYLLABUS REGULATION 2008 2011 2012-2013 BELOW IS THE ANNA UNIVERSITY SEVENTH SEMESTER B.TECH POLYMER TECHNOLOGY DEPARTMENT SYLLABUS, TEXTBOOKS, REFERENCE BOOKS,EXAM PORTIONS,QUESTION BANK,CLASS NOTES, IMPORTANT 2 MARKS, 8 MARKS, 16 MARKS TOPICS. IT IS APPLICABLE FOR ALL STUDENTS ADMITTED IN THE YEAR 2011 2012-2013 (ANNA UNIVERSITY CHENNAI,TRICHY,MADURAI,TIRUNELVELI,COIMBATORE), 2008 REGULATION OF ANNA UNIVERSITY CHENNAI AND STUDENTS ADMITTED IN ANNA UNIVERSITY CHENNAI DURING 2009
PT2404 POLYMER PRODUCT DESIGN L T P C
3 1 0 4
AIM
To design polymer products with knowledge of polymer properties and end use
OBJECTIVES
To learn physical properties of polymers required for product design
To design plastic parts such as static and dynamic loaded parts for electrical, optical
and mechanical applications (gears, bearings, pipes, seals, couplings and vibration
dampers)
UNIT I 9
Introduction to structure and physical properties of polymers, stress – strain behaviour of
polymers, effect of fillers on properties of polymers, stress analysis of polymers,
structural design of beams, plates and other structural members.
UNIT II 9
Dynamic load response of polymers, effects of cyclic loading, other forms of stress
applied to polymer parts, design for stiffness, processing limitations on polymers product
design. Material and process interaction and the effects on the performance of plastic
parts and the resulting design limitations, performance in service and environmental
exposure.
UNIT III 9
Design procedure for plastic parts, design of plastic structural parts for static loads,
design of dynamically loaded plastic parts, design of plastic parts for electrical
applications, design of plastic parts for optical applications.
UNIT IV 9
Gear Design materials strength and durability, moulded V/s cut plastic gearing
inspection assembly and operation.
Bearings: Self lubricated plastic materials rubber bearing, type of bearings, designers
check list.
PVC piping: Raw materials, pipe design, specification and test procedure, manufacturing
process.
UNIT V 9
Elastomeric ring seals Basic configurations, design method, design consideration static
and dynamic seals. Vibration dampers: Basic vibration damping relations, Octave rule
for damped systems, Estimating damping in structures, controlling resonant peaks with
damping, response of damped structures to shock. Flexible Coupling – Vibration of two
mass system, specification and selection of couplings, types of couplings.
TOTAL: 60 PERIODS
TEXT BOOKS
1. H. Belofsky, “Plastics Product Design and Process Engineering”, SPE, Hanser
Publication, Munich Vienna NY, 1995.
2. S.Levy & J.H.Dubois, “Plastic Product Design Engineering Hand Book”, Van
Nostrand Reinhold Co., New York, 1977.
REFERENCES
1. Robert A. Malloy, “Plastic Part Design for Injection Moulding”, Hanser Pub., Munich
Vienna NY, 1994.
2. Edward Miller, “Plastics Products Design Hand Book”, Marcel Dekker,
3. P.K.Freekly & A. R. Payne, “Theory and Practice of Engineering with Rubber”.
B. Hepburn and R.J.W. Raynolds, Elastomers, “Criteria for Engineering Design”.
4. R.D.Beck, “Plastic Product Design”, Van Nostrand Reinhold Co.
PT2404 POLYMER PRODUCT DESIGN L T P C
3 1 0 4
AIM
To design polymer products with knowledge of polymer properties and end use
OBJECTIVES
To learn physical properties of polymers required for product design
To design plastic parts such as static and dynamic loaded parts for electrical, optical
and mechanical applications (gears, bearings, pipes, seals, couplings and vibration
dampers)
UNIT I 9
Introduction to structure and physical properties of polymers, stress – strain behaviour of
polymers, effect of fillers on properties of polymers, stress analysis of polymers,
structural design of beams, plates and other structural members.
UNIT II 9
Dynamic load response of polymers, effects of cyclic loading, other forms of stress
applied to polymer parts, design for stiffness, processing limitations on polymers product
design. Material and process interaction and the effects on the performance of plastic
parts and the resulting design limitations, performance in service and environmental
exposure.
UNIT III 9
Design procedure for plastic parts, design of plastic structural parts for static loads,
design of dynamically loaded plastic parts, design of plastic parts for electrical
applications, design of plastic parts for optical applications.
UNIT IV 9
Gear Design materials strength and durability, moulded V/s cut plastic gearing
inspection assembly and operation.
Bearings: Self lubricated plastic materials rubber bearing, type of bearings, designers
check list.
PVC piping: Raw materials, pipe design, specification and test procedure, manufacturing
process.
UNIT V 9
Elastomeric ring seals Basic configurations, design method, design consideration static
and dynamic seals. Vibration dampers: Basic vibration damping relations, Octave rule
for damped systems, Estimating damping in structures, controlling resonant peaks with
damping, response of damped structures to shock. Flexible Coupling – Vibration of two
mass system, specification and selection of couplings, types of couplings.
TOTAL: 60 PERIODS
TEXT BOOKS
1. H. Belofsky, “Plastics Product Design and Process Engineering”, SPE, Hanser
Publication, Munich Vienna NY, 1995.
2. S.Levy & J.H.Dubois, “Plastic Product Design Engineering Hand Book”, Van
Nostrand Reinhold Co., New York, 1977.
REFERENCES
1. Robert A. Malloy, “Plastic Part Design for Injection Moulding”, Hanser Pub., Munich
Vienna NY, 1994.
2. Edward Miller, “Plastics Products Design Hand Book”, Marcel Dekker,
3. P.K.Freekly & A. R. Payne, “Theory and Practice of Engineering with Rubber”.
B. Hepburn and R.J.W. Raynolds, Elastomers, “Criteria for Engineering Design”.
4. R.D.Beck, “Plastic Product Design”, Van Nostrand Reinhold Co.
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