Modeling and Simulation in Materials Engineering Material Science 8th Sem Syllabus for BE 2017 Regulation Anna Univ (Professional Elective V) detail syllabus for Materials Science And Engineering (Material Science), 2017 regulation is collected from the Anna Univ official website and presented for students of Anna University. The details of the course are: course code (ML8016), Category (PE), Contact Periods/week (3), Teaching hours/week (3), Practical Hours/week (0). The total course credits are given in combined syllabus.
For all other material science 8th sem syllabus for be 2017 regulation anna univ you can visit Material Science 8th Sem syllabus for BE 2017 regulation Anna Univ Subjects. For all other Professional Elective V subjects do refer to Professional Elective V. The detail syllabus for modeling and simulation in materials engineering is as follows.
Course Objective:
- Modeling and simulation are important tools in understanding physical effects in many technological applications. This course should enable students to use standard packages for modeling and simulation applicable to Materials Science and Engineering.
Unit I
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Unit II
Constitutive Equations in Functional Materials
Thermoelectric and electromagnetic properties of solids, Constitutive equations in electromagnetism, Maxwells equation – microscopic and macroscopic approach, Constitutive equations for thermoelectric materials, Thermo-elastic conductors, Magnetizable conductors and Super conductivity
Unit III
Constitutive Equations in Structural Materials
Basic concepts from continuum mechanics, Stress tensor, Strain tensor, Strain rate tensor, Equation in conductivity and motion. Constitutive equations for ideal elastic material: Gauchys method and Greess Method. Constitutive equations for plasticity: Ideal plastic material and work hardenable plastic material.
Unit IV
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Unit V
Computer Applications in Physical Metallurgy
Use of computers for the construction of phase diagrams, Features of CALPHAD -Expert system for alloy design and selection of materials – computer applications in crystallography.
Course Outcome:
Upon completion of this course, the students can able to
- Apply numerical techniques to a variety of materials process including solidification, heat treatment, grain from the recovery stabilization
- Able to evaluate the capabilities and limitation of commercial software.
Text Books:
- AMIE, Modeling of casting and welding process, Volume I and II, the Metallurgical society of AMIE, 1981&1983.
- Reddy J. N., An Introduction to Finite Element Method, McGraw-Hill International Student Edition, 1985.
References:
- Cerjak H., Mathematical Modeling of Weld Phenomenon-2, The Institute of Materials,1995.
- O. C. Zienkiewicz and R. L. Taylor, The Finite Element Methods, Vol.1. The basic formulation and linear problems, 5th Edition, Vol. 1, Butterworth Heineman, 2000.
- Piwonoka T.S., Vollen V., Katgerman l., Modeling of Casting, Welding, and Advanced Solidification Process, 4th edition, TMS-AIME, USA, 1993
- Stocks G.M., Turchi P.E.A., Alloy Modeling and Design, the Metals Society, AMIE, USA,1994.
- Trivedi R., Sekhar J.A., Majumudar J., Principles of Solidification and Material Processing, Volume I&II, Oxford and IBH, New Delhi, 1989.
For detail syllabus of all other subjects of BE Material Science, 2017 regulation do visit Material Science 8th Sem syllabus for 2017 Regulation.
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