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Faculty of Science Handbook, Session 2017/2018
Heat dissipation technology: Heat-sink ,fin, heat spreader, heat pipe,
heat pump, Peltier cooling plates SMEB2271 MATERIAL SCIENCE LABORATORY I
Assessment Method:
Final Examination: 60% Students are attached to research labs carrying out mini-projects on
Continuous Assessment: 40% experiments in material science in characterizing electrical, optical,
Medium of Instruction: magnetic, mechanical, thermal properties of photonic materials, smart
English materials electrochemistry, polymer composite, semiconductor materials
organic electronics , devices and advanced material processing while
Soft-skills: learning to use various characterizing equipment such as scanning
CS3, CT3, LL2 electron microscopy, micro-Raman spectroscopy, UV-VIS-NIR
spectroscopy, Light microscopy, x-ray diffraction, scanning probe
References: microscopy , scanning electron microscopy, transmission electron
1. Thermal Conductivity: Theory, Properties, and Applications
(Physics of Solids and Liquids) by Terry M. Tritt (Nov 29, 2010) microscopy, auger electron spectroscopy, fast Fourier transform infrared
2. Introduction to the Thermodynamics of Materials, Fifth Edition by spectroscopy, four-point probe, thermogravimetry, differential scanning
David R. Gaskell (Mar 13, 2008) calorimetry, electrical impedance spectroscopy and simple material
3. Thermodynamics in Materials Science, Second Edition by Robert process technology. Students will be exposed with Labview
T. DeHoff (Mar 13, 2006) programming.
Assessment Method:
SMEB2206 POLYMER PHYSICS Continuous Assessment: 100%
Introduction to polymer. Morphology, structure and physical properties Medium of Instruction:
of polymer. Viscosity, rubber elasticity, transition and relaxation. English
Superposition of time-temperature, WLF equation. Special applied
polymer, conducting polymer. Technological importance polymers. Soft-skills:
CS2, CT3, LL2
Assessment Method:
Final Examination: 60% References:
Continuous Assessment: 40% 1. Y. Leng, Materials Characterization: Introduction to Microscopic
st
Medium of Instruction: 2. and Spectroscopic Methods, 1 edition (Wiley, Jun 2, 2008)
Sam Zhang, Lin Li, Ashok Kumar Materials Characterization
English Techniques, 1 edition (CRC Press, Disember 22, 2008)
st
3. Angelika H. Hofmann, Scientific Writing and Communication:
Soft-skills: Papers, Proposals, and Presentations, 1 edition (Oxford University
CS2, CT3, LL2, EM1 Press, Disember 16, 2009)
References:
1. J.L. Fried, Polymer Science and Technology, Prentice Hall, 1995. LEVEL 3
2. N.G. McCrum, C.P. Buckley and C.B. Bucknall, Principles of
Polymer Engineering, Oxford University Press, 1988. SMEB3271 MATERIAL SCIENCE LABORATORY II
3. P.Painter and M.M Coleman, Fundamentals of Polymer Science
(AN Introductory Text), Technomic Students are attached to research labs carrying out mini-projects on
4. D.J. Bower, An Introduction to Polymer Physics, Cambridge Univ. experiments in material science in characterizing electrical, optical,
Press 2002. magnetic, mechanical, thermal properties of photonic materials, smart
materials electrochemistry, polymer composites, semiconductor
materials organic electronics, devices and advanced material
SMEB2207 COMPUTER PROGRAMMING processing while learning to use various characterizing equipments such
as scanning electron microscopy, micro-raman spectroscopy, UV-VIS-
Students are equipped with the fundamentals of how the computer NIR spectroscopy, Light microscopy, x-ray diffraction, scanning probe
works. The important components in a computer will be explained in microscopy, transmission electron microscopy, auger electron
detail. Students are taught to perform computer programming using C spectroscopy, fast fourier transform infrared spectroscopy, four-point
language. The basic statements are discussed and the methodology is probe, thermogravimetry, differential scanning calorimetry, electrical
shown. C++ will also be briefly introduced. impedance spectroscopy and simple material process technology.
Students will be exposed with labviews programming.
Assessment Method:
Final Examination: 60% Assessment Method:
Continuous Assessment: 40% Continuous Assessment: 100%
Medium of Instruction: Medium of Instruction:
English English
Soft-skills: Soft-skills:
CS2, CT3, LL2 CS2, CT3, LL2
References: References:
1. Richard Johnsonbaugh and Martin Kalin, C for Scientists and 1. Y. Leng, Materials Characterization: Introduction to Microscopic
Engineers, 1 edition (Prentice Hall,Oct 12, 1996) and Spectroscopic Methods, 1 edition (Wiley, Jun 2, 2008)
st
st
2. Robert L. Wood, C Programming for Scientists and Engineers 2. Sam Zhang, Lin Li, Ashok Kumar Materials Characterization
(Manufacturing Engineering Series) (Butterworth-Heinemann, Jun Techniques, 1 edition (CRC Press, Disember 22, 2008)
st
20, 2002) 3. Angelika H. Hofmann, Scientific Writing and Communication:
3. David R. Brooks, C Programming: The Essentials for Engineers Papers, Proposals, and Presentations, 1 edition (Oxford University
and Scientists (Undergraduate Texts in Computer Science), 1 st Press, Disember 16, 2009)
edition (Springer,Jun 4, 1999)
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