-
1
.. 2554
//
1 1.
1.1 : - 1.2 () : () : Master of Engineering Program in
Metallurgical Engineering
2. 2.1 () : () () : Master of Engineering (Metallurgical
Engineering) 2.2 () : .. () () : M.Eng. (Metallurgical
Engineering)
3. () 4. 40 5.
5.1 2 5.2 5.3
5.4
5.5
6. /
.. 2554 5/2554 20 .. 2554 / 146 20 .. 2554
7. 2555 8. (1)
-
2 (2) (3) 9.
- () ( )
1. .. Ph.D.(Metallurgical Engineering) University of Wisconsin
(2543) 2. .. Ph.D. (Metallurgical Engineering) University of
Alabama (2543) 3. . Dr.Ing. (Mechanical Engineering) Technical
University of Munich (2549) 10. 11. 11.1
11.2
12. 11.1 11.2 12.1
12.2
13. () / ( /
/) 13.1 ///
-
3 /
13.2 // /
13.3
2
1. 1.1
1.2
1.3 1.3.1
1.3.2
1.3.3
2. / /
- .
- -
-
-
-
4 / /
-
-
-
-
3 1.
1.1 1.2 1.3
2. 2.1 - () 17.00 . 20.00 .
2.2
().........................................................................................
( )
().............................................................................................................................
2.3 (1) (2) (3)
2.4 / 2.3
2.5 5
2554 - 2558 2554 2555 2556 2557 2558 1 15 15 15 15 15 75 2 - 15
15 15 15 60 15 30 30 30 30 135
- 15 15 15 15 60
-
5 2.6
2.6.1 (: )
1. 15,000 30,000 2. ( 3,000 /) 30,000 60,000 180,000 /
2554 2555 2556 2557 2558
450,000 900,000 900,000 900,000 900,000
1,080,000 1,800,000 1,800,000 1,800,000 1,800,000
- - - - -
1,530,000 2,700,000 2,700,000 2,700,000 2,700,000
2.6.2 ( )
2554 2555 2556 2557 2558
. 1. 305,628 320,909 336,955 353,803 371,493 2. 504,000 981,000
981,000 981,000 981,000 3. 72,000 120,000 120,000 120,000 120,000
4. 450,000 900,000 1,200,000 1,200,000 1,200,000
() 1,331,628 2,321,909 2,637,955 2,654,803 2,672,493 . 50,000
52,500 55,125 57,881 60,775 () 50,000 52,500 55,125 57,881 60,775
() + () 1,381,628 2,374,409 2,693,080 2,712,684 2,733,268 * 15 30
30 30 30 92,109 79,147 89,769 90,423 91,109
88,511
2.7 (E-learning) ()
...........................................................................................................................
-
6 2.8 ()
( .)
3. 3.1 3.1.1 40 3.1.2
2 () . 12 . 15 . 1 . 12
() . 12 . 21 . 1 . 6
3.1.3 -
PRE MGE LNG
3 1-4 5 6-9 MGE
1 2 3 4 5 6 7 8 9 0
-
7 - MGE 501 3(3-0-9) (Metals Testing and Characterization) LNG
550 2(1-2-6) (Remedial English Course For Post Graduate Students)
LNG 600 3(2-2-9) (Insessional English Course for Post Graduate
Students) LNG 550 / LNG LNG 600 /
. 12 PRE 651 3(3-0-9) (Microstructural Evolution and Its
Resultant Properties in Metals) PRE 652 3(3-0-9) (Transport
Phenomena in Process Metallurgy) MGE 631 3(3-0-9) (Thermodynamics
of Solids) PRE 747 3(3-0-9) (Research Methodology) . 15 21 MGE 611
3(3-0-9) (Multicomponent Phase Equilibria) MGE 612 3(3-0-9)
(Transformation of Solids) MGE 621 3(3-0-9) (Fracture Mechanics)
MGE 622 3(3-0-9) (Deformation Mechanisms in crystalline Solids) MGE
623 3(3-0-9) (Mechanical Behavior of Metals) MGE 632 3(3-0-9)
(Applied Chemical Metallurgy) MGE 633 3(3-0-9) (Ferrous Metallurgy
and Its Processing) MGE 634 3(3-0-9) (Nonferrous Metallurgy and Its
Processing)
-
8 MGE 641 3(3-0-9) (Methods of Surface and Interface
Characterization) MGE 642 3(3-0-9) (Diffraction and Structure) MGE
643 3(3-0-9) (Quantitative Analysis of Microstructure) MGE 651
3(3-0-9) (Materials Selection, Design, and Economics) MGE 652
3(3-0-9) (Casting Design) MGE 653 3(3-0-9) (Materials for Elevated
Temperature Service) MGE 654 3(3-0-9) (Biomaterials and
Biocompactibility) MGE 655 3(3-0-9) (Industrial Ecology) MGE 661
3(3-0-9) (Corrosion and Its Preventions) MGE 662 3(3-0-9)
(Metallurgical Failure Analysis) MGE 671 3(3-0-9) (Heat Treatment
of Ferrous) MGE 672 3(3-0-9) (Heat Treatment of Non-ferrous) MGE
681 3(3-0-9) (Surface Science and Engineering) MGE 682 3(3-0-9)
(Forming Process Analysis) MGE 683 3(3-0-9) (Solidification
Science) MGE 684 3(3-0-9) (Advanced Foundry Engineering) MGE 685
3(3-0-9) (Powder Metallurgy) MGE 686 3(3-0-9) (Theory and Practice
of Steel Manufacturing)
-
9 MGE 691 3(3-0-9) (Materials Performance and Reliability) MGE
692 3(3-0-9) (Analysis and Control of Materials Processes) MGE 601
1 3(3-0-9) (Special Topics I) MGE 602 2 3(3-0-9) (Special Topics
II) . MGE 603 1(1-0-3) (Seminar) . / MGE 604 12 (Thesis) MGE 605 6
(Industrial Research Project)
3.1.4 2 ()
1 1 PRE 651 3(3-0-9) (Microstructural Evolution and Its
Resultant Properties in Metals) MGE 631 3(3-0-9) (Thermodynamics of
Solids) MGE xxx 1 3(3-0-9) (Elective I) MGE xxx 2 3(3-0-9)
(Elective II)
12(12-0-36) / = 48 1 2
PRE 652 3(3-0-9) (Transport Phenomena in Process Metallurgy)
MGE xxx 3 3(3-0-9) (Elective III) MGE xxx 4 3(3-0-9) (Elective
IV) MGE 604 3(0-6-12) (Thesis) 12(9-6-39)
/ = 54
-
10 2 1
PRE 747 3(3-0-9) (Research Methodology) MGE xxx 5 3(3-0-9)
(Elective V) MGE 604 3(0-6-12) (Thesis) 9(6-6-30)
/ = 42 2 2
MGE 603 1(1-0-3) (Seminar) MGE 604 6(0-12-24) (Thesis)
7(1-12-27)
/ = 40 () 1 1
PRE 651 3(3-0-9) (Microstructural Evolution and Its Resultant
Properties in Metals) MGE 631 3(3-0-9) (Thermodynamics of Solids)
MGE xxx 1 3(3-0-9) (Elective I) MGE xxx 2 3(3-0-9) (Elective
II)
12(12-0-36) / = 48 1 2
PRE 652 3(3-0-9) (Transport Phenomena in Process Metallurgy)
MGE xxx 3 3(3-0-9) (Elective III) MGE xxx 4 3(3-0-9) (Elective
IV) MGE xxx 5 3(3-0-9) (Elective V)
12(12-0-36) / = 48
-
11 2 1
PRE 747 3(3-0-9) (Research Methodology) MGE xxx 6 3(3-0-9)
(Elective VI) MGE xxx 7 3(3-0-9) (Elective VII) 9(9-0-27)
/ = 36 2 2
MGE 603 1(1-0-3) (Seminar) MGE 605 6(0-12-24) (Industrial
Research Project) 7(1-12-27)
/ = 40 3.1.5 ( .)
3.2 3.2.1
-
( ) (),
(./) ()
2553 2554 2555 2556 2557 1 .. Ph.D. (Metallurgical Engineering)
,U. of Wisconsin 20 22 20 22 20 2 .. Ph.D. (Metallurgical
Engineering) ,U. of Alabama 30 28 32 28 32 3 .
Dr.Ing. (Mechanical Engineering) , Technical U. of Munich
27 26 27 26 27
4 . .. (),
17 17 17 17 17
5 .
.. () ,
27 26 27 26 27
3.2.2
-
( ) (),
(./) ()
2553 2554 2555 2556 2557 1 .. Ph.D. (Materials Engineering) , U.
of Notthingham, 33 31 27 31 27 2 .. Ph.D. (Welding Engineering) ,
Ohio State U. 34 36 33 36 33 3 .. Ph.D. ( Engineering System), U.
of Brunel 15 17 15 17 15 4 . .. () ,
26 29 25 29 25
-
12
-
( ) (),
(./) ()
2553 2554 2555 2556 2557 5 .
Ph.D.(Metallurgical Engineering), Colorado School of Mines
25 21 21 21 21
6 .
.. () ,
20 22 19 22 19
7 .
M.Sc. (Manufacturing Engineering) , U. of Massachusettes
24 21 23 21 23
3.2.3
-
( ) (),
(./) ()
2554 2555 2556 2557 2558 1 Dr. John Pearce
Ph.D. (Metallurgical Engineering) , Archaeology and Anthropology
(Cambridge) and MA (Durham)
6 6 6 6 6
2 . Ph.D. (Industrial Engineering) ,Texas Tech University
6 6 6 6 6
3 .
Ph.D. (Production Engineering) , University of Birmingham
6 6 6 6 6
4 .
Ph.D. (Metallurgical Engineering) , University of
Connecticut
6 6 6 6 6
5 . Ph.D. (Industrial Engineering) ,Lehigh University 6 6 6 6 6
6 .
Sc.D. (Metallurgical Engineering) , Massachusetts Institute of
Technology
6 6 6 6 6
7 .... Ph.D. (Metallurgical Engineering) , (AMM) 6 6 6 6 6 4. (
) () 5. ()
5.1
5.2
5.3 1-2 2 5.4 12 6
-
13 5.5 5.6
4
1.
1)
2)
3)
4)
5)
6)
2. 2.1
2.1.1 (1)
(2)
(3)
(4)
2.1.2 (1)
2.1.3 (1) .2
-
14 (2)
2.2 2.2.1
(1)
(2) (3)
(4)
2.2.2
2.2.3 (1) (2) (3)
2.3 2.3.1
(1)
(2)
(3)
(4)
2.3.2 (1) (2) (3)
2.3.3
2.4 2.4.1
(1)
-
15 (2)
(3) (4)
2.4.2 (1) (2) (3) (4)
2.4.3 (1)
2.5 2.5.1
(1)
(2)
2.5.2
2.5.3 (1)
(2)
-
16
3. (Curriculum Mapping) 3.1 (Curriculum Mapping)
1. 2. 3. 4.
5.
1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5 1 2 3 4 5
LNG 550 (Remedial English Course For Post Graduate Students) 2
(1-2-6)
LNG 600 (Insessional English Course for Post Graduate Students)
3 (2-2-9)
-
17 1. 2. 3. (1) (1) (1) (2) (2) (3) (3) (2) (4) (3) (4) (4) (5)
(5) (5) 4. 5. (1) (1) / (2) (3) (2) (4) (3) (5) (4) (5)
-
18 3.2 (Curriculum Mapping)
1. 2. 3. 4.
5.
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 PRE 651 (Microstructural
Evolution and Its Resultant Properties in Metals) 3(3-0-9)
PRE 652 (Transport Phenomena in Process Metallurgy) 3(3-0-9)
MGE 501 (Metals Testing and Characterization) 3(3-0-9)
MGE 631 (Thermodynamics of Solids) 3 (3-0-9)
PRE 747 (Research Methodology) 3(3-0-9)
MGE 611 (Multicomponent Phase Equilibria) 3(3-0-9)
MGE 612 (Transformation of Solids) 3(3-0-9)
MGE 621 (Fracture Mechanics) 3(3-0-9)
MGE 622 (Deformation Processing) 3(3-0-9)
-
19
1. 2. 3. 4.
5.
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 MGE 623 (Mechanical Behavior
of Metals) 3 (3-0-9)
MGE 632 (Applied Chemical Metallurgy) 3(3-0-9)
MGE 633 (Ferrous Metallurgy and Its Processing) 3(3-0-9)
MGE 634 ( Nonferrous Metallurgy and Its Processing) 3(3-0-9)
MGE 642 (Diffraction and Structure) 3(3-0-9)
MGE 643 (Quantitative Analysis of Microstructure) 3(3-0-9)
MGE 651 (Materials Selection, Design, and Economics)
3(3-0-9)
MGE 652 (Casting Design) 3(3-0-9)
MGE 653 (Materials for Elevated Temperature Service)
3(3-0-9)
-
20
1. 2. 3. 4.
5.
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 MGE 654 (Biomaterials and
biocompactibility) 3(3-0-9)
MGE 655 (Industrial Ecology) 3(3-0-9) MGE 661 (Corrosion and its
preventions) 3(3-0-9)
MGE 662 (Metallurgical Failure Analysis) 3(3-0-9)
MGE 671 (Heat Treatment of Ferrous) 3(3-0-9)
MGE 672 (Heat Treatment of Non-ferrous) 3(3-0-9)
MGE 681 (Surface science and Engineering) 3(3-0-9)
MGE 682 (Forming Process Analysis) 3(3-0-9)
MGE 683 (Solidification Science) 3(3-0-9)
MGE 684 (Advanced Foundry Engineering) 3(3-0-9)
MGE 685 (Powder Metallurgy) 3(3-0-9)
MGE 686
-
21
1. 2. 3. 4.
5.
1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 (Theory and Practice of
Steel Manufacturing) 3(3-0-9) MGE 691 (Materials Performance and
Reliability) 3(3-0-9)
MGE 692 (Analysis and Control of Materials Processes)
3(3-0-9)
MGE 601 1 (Special Topics I) 3(3-0-9)
MGE 602 2 (Special Topics II) 3(3-0-9)
MGE 603 (Seminar) 1(1-0-3)
MGE 604 (Thesis) 12
MGE 605 (Industrial Research Project) 6
MGE 641 (Methods of Surface and Interface Characterization)
3(3-0-9)
-
22 1. 2. 3. (1) (1) (1) (2) (2) (2) (3) (3) (3) (4) (4) (4) 4.
5. (1) (1) (2) (2) (3) (4)
-
23 5
1. () ( .)
2. 2.1
- -
- 2.2
1)
2)
3)
4)
5) 3.
( .) 6
1.
2. 2.1
2.2
7 1.
1.
-
24
2. (Laboratory)
3.
4.
5.
6.
2. 2.1
2.2
1 5 2 polishing 9 3 2 4 1 5 1 6 1 7 (Induction furnace) 1 8
(Data logger) 1 9 (Thermocouple) 2 10 2 11 2 12 1 13 (Cut-off
Machine) 1 14 (Mounting Machine) 1 15 5 16 1
-
25 2.3
1.
2.
1.
2.
3.
2.4
1. Internet
2.
3.
4. 4 /
5.
1.
2.
3.
3. 3.1
-
26 3.2
3.3
4. 4.1
4.2 4.2.1 4.2.2
4.2.1
5. 5.1 5.2
( .) 6. /
1.
2.
1. 5
2.
1.
2.
7. (Key Performance Indicators)
2554 2555 2556 2557 2558 1. 80
2. .2 / ()
3. () .3 .4
-
27
2554 2555 2556 2557 2558 4.
() .5 .6 30
5. .7 60
6. .3 .4 () 25
7. / .7
8. () 9. /
10. () / 50
11. / 3.5 5.0
12. 3.5 5.0
13. 1 80 14. ..
8 1. 1.1
1.2
2. /
3.
-
28 4.
/
. LNG 550 2 (1-2-6) (Remedial English Course for Post Graduate
Students) : LNG 600 This course aims to instill the background
language and skills necessary for undertaking LNG 600 and to raise
the students confidence in using English. There will be no
predetermined focus of the course, but instead it will concentrate
on those areas where the students are weakest and need most
improvement. The classroom teaching and learning will be supported
by self-directed learning to allow the students to improve their
language and skills autonomously. LNG 600 3 (2-2-9) (Insessional
English Course for Post Graduate Students)
: LNG 550 or Pass grade from placement procedure
This course aims to develop English language skills relevant to
mature students in Graduate Degree Programmes in Engineering,
Science and Technology. It will be based on practical skills, but
will not be yet another grammar course. Rather its focus will be on
the real language demands, particularly in reading and writing,
faced by students in the course of their studies. It is
project-focussed and simulates the stages in preparing and
presenting research, from finding references to writing a final
draft. The course will equip students with language learning
strategies to facilitate ongoing autonomous learning and will
emphasise language use not usage, real communication not classroom
practice. PRE 651 3 (3-0-9) (Microstructural Evolution and Its
Resultant Properties in Metals) : Topics include atomic structures,
defects, diffusion, solidification, grain growth, microstructural
evolution. Mechanical and physical properties of metals.
Investigations include structural transitions and
structure-property relationships through practical metals
examples.
-
29 Phase equilibrium diagram. Strengthening Mechanisms. The
lectures are widely illustrated with examples and applications
based on ferrous and non-ferrous. PRE 652 3 (3-0-9) (Transport
Phenomena in Process Metallurgy) : ( ) Principles of fluid flow,
heat transfer and diffusion. Practical examples relevant to
metallurgical engineering. Applications in Metallurgical Processing
(heat treating, laser transformation hardening, welding, casting,
single crystal growth). PRE 747 3 (3-0-9) (Research Methodology)
:
Definition and Types of the Research. Research and Problem
Solving. How to define the problem. How to formulate the
hypothesis. Root Causes Analysis. Some techniques for hypothesis
testing i.e. Significant testing, Analysis of Variance (ANOVA),
Design of Experiment (DOE), PM analysis etc. MET 501 3 (3-0-9)
(Metals Testing and Characterization) : Principles of metal testing
and characterization include microstructure examinations,
macrostructure examinations, mechanical testings, metal
characterization, heat treatment of metals, non-destructive
testing, and thermal analysis. MGE 611 3 (3-0-9) (Multicomponent
Phase Equilibria) : : Eutectic, Peritectic, 1 2 3 Thermodynamic
principles governing phase equilibria. Estimation of thermodynamic
properties. One-component systems Two-component systems: eutectic,
peritectic, and complex equilbria. Ssolidification and
microstructure. Three-component systems: type I, II and III
invariant equilibria. Applications of phase equilibria to the
design of welding, heat treatment, casting, and other topics.
-
30 MGE 612 3 (3-0-9) (Transformation of Solids) : The basic
factors that determine phase equilibria and structural
characteristics of solids. Phase transformations, nucleation,
recrystallization, precipitation, corrosion, and oxidation.
Atomistic basis for diffusion.Analysis of diffusion kinetics in
single and multiphase systems. Martensitic
transformation-crystallography and microstructures. MGE 621 3
(3-0-9) (Fracture Mechanics) : Deformation and fracture mechanics
of engineering materials, fracture, microstructural aspects of
fracture toughness, environment assisted cracking, fatigue crack
propagation, Fracture-mechanic design, analysis of engineering
failures. MGE 622 3 (3-0-9) (Deformation Mechanisms in Crystalline
Solids) : Deformation processing of metal Fracture mechanisms
Mechanical properties at high temperature for superalloy stainless
steel and heat resisting coating materials relation between
chemical composition microstructure and high temperature
application Effecct of alloying elements on dislocation motion
Diffusion lattice Dynamic recrystallization Life prediction and
remaining life assessment based on operating condition and
operating time. MGE 623 3 (3-0-9) (Mechanical Behavior of Metals) :
Mechanical properties and relationship. Plastic deformation of
crystalline materials. Relationship of microstructures to
mechanical strength. Strengthening mechanisms Characteristic of
Fracture Surface , Creep theory and Fatigue theory.
-
31 MGE 631 3 (3-0-9) (Thermodynamics of Solids) : (Gibbs Free
Energy) 2 Thermodynamics of materials science and engineering.
Review of first, second and third laws of thermodynamics.
Equilibrium calculations for pure substances. Equilibrium
calculations involving pure substances and solutions. Behavior of
solutions. Behavior of gases. Reactions involving gases. Gibbs free
energy and Phase diagrams of binary systems. MGE 632 3 (3-0-9)
(Applied Chemical Metallurgy) : Stoichiometry, Mass and energy
balances. Complex metallurgical processes such as mineral
processing, roasting, oxidation-reduction, smelting, refining,
selective leaching, and electrolysis. Formation and control of
slag. MGE 633 3 (3-0-9) (Ferrous Metallurgy and Its Processing) : -
() Fe-C Iron and Steel making process, oxygen steelmaking process,
electric furnance steelmaking, ladle metallurgy; AOD process,
direct reduction and smelting processes. Casting-steel and iron.
Continuous casting of steel products. Classification and basic
metallurgy of cast irons and steels. Metallurgy and properties of
cast irons and steels. Heat treating of cast irons and steels.
Graphite formation. Phase transformation in Fe-C system.
Martensitic transformation. HSLA steels and stainless steel
metallurgy. MGE 634 3 (3-0-9) (Nonferrous Metallurgy and Its
Processing) : Properties, manufacturing process and uses of copper
alloys, aluminum alloys, magnesium alloys, and titanium alloys.
Correlations between composition, microstructure, heat treatment,
and properties.
-
32 MGE 641 3 (3-0-9) (Methods of Surface and Interface
Characterization) : Principles and engineering applications of
major methods of structural and chemical characterization of
surfaces and interfaces, including light microscopy, color
metallography techniques, polarized and Nomarski optical
microscopy, scanning electron microscopy, EDS, WDS, low-energy
electron diffraction. MGE 642 3 (3-0-9) (Diffraction and Structure)
: Laue Bragg Reciprocal lattice Fourier transforms X-ray and
neutron diffraction using Laue equations, Bragg's law, and the
reciprocal lattice. Use of Fourier transforms and series to
establish relations between intensity and distribution of
scattering density. Applications to identification of materials,
texture, small angle scattering and Rietveld analysis. Determines
structure through diffraction effects: the phase problem, Patterson
function, and direct methods for phase determination. Quantitative
description and refinement of atomic arrangements. MGE 643 3
(3-0-9) (Quantitative Analysis of Microstructure) : A review will
be presented of basic probability theory and statistical analysis,
with particular emphasis on terms and definitions of a
microstructure. The properties accessible to quantification, the
basic stereological relationships and the mathematical foundations,
and the microstructural tools needed to quantify the structure will
be emphasized. Applications of quantitative metallography to
problems in failure analysis, solidification, heat treatment, phase
equilibria, and deformation behavior. MGE 651 3 (3-0-9) (Materials
Selection, Design, and Economics) : A survey of techniques for
analyzing how the choice of materials, processes, and design
determine properties, performance, and cost. Topics include
production and cost functions, mathematical optimization,
evaluation of single and multi-attribute utility, decision
analysis,
-
33 materials property charts, and performance indices. Students
use analytical techniques to develop a plan for starting a new
materials-related business. MGE 652 3 (3-0-9) (Casting Design) :
Melt reactions, mold design, Coring, Problems encounter in thin
sections and junctions. Dimensional variation and tolerance,
solidification shrinkage, casting accuracy, surface finishing.
Structure properties and defects of the finished casting. Design
for die casting, corrosion resistant castings, heat resistant
casting. The selection, properties, and applications of non-ferrous
alloy casting. MGE 653 3 (3-0-9) (Materials for Elevated
Temperature Service) : Mechanical behavior of metals and other
nonmetallic materials considering composition, structure,
environment, and service conditions. Structural stability. Creep
and stress rupture. Deformation mechanism maps Fracture mechanisms
maps Degradation of metal due to high temperature operating MGE 654
3 (3-0-9) (Biomaterials and Biocompactibility) This course presents
a balanced perspective on the evolving discipline of Biomaterials
Science by including information on hard biomaterials and soft
biomaterials, orthopedic ideas, cardiovascular concepts,
ophthalmologic ideas, and dental issues. The course will include a
balance of fundamental biological concepts, materials science
background, medical/clinical concerns, as well as a coverage of
biomaterials past, present, and future. The aim of the course is
for the student to gain a solid appreciation for the special
significance of the word biomaterial as well as the rapid and
exciting evolution and expansion of biomaterials science and its
applications in medicine. MGE 655 3 (3-0-9) (Materials Ecology) :
Quantitative techniques for life-cycle analysis of the impacts of
materials extraction, processing use, and recycling; and economic
analysis of materials processing, products, and markets. Student
teams undertake a major case study of automobile manufacturing
using the latest methods of analysis and computer-based models of
materials process.
-
34 MGE 661 3 (3-0-9) (Corrosion and its preventions)
Thermodynamics and kinetics of metallic corrosion. The common forms
of corrosion and corrosion susceptibility tests. Corrosion
prevention, economic considerations. High temperature oxidation.
MGE 662 3 (3-0-9) (Metallurgical Failure Analysis) : Procedure for
failure analysis. Investigative techniques. Distortion failures.
Basic single-load fracture modes. Stress systems related to
single-load fracture of ductile and brittle metals. Fatigue
fracture. Wear failures. Corrosion failures. Elevated-temperature
failures. Case study of metallurgical failure analysis. MGE 671 3
(3-0-9) (Heat Treatment of Ferrous) : Theories and principles of
dislocation on strengthening mechanism of metals, recovery,
recrystallization, and grain growth. Phase transformation of solid
in metals. Surface hardening. Other heat treatment techniques
emphasized on iron and steels. Equipment and quality control. MGE
672 3 (3-0-9) (Heat Treatment of Non-ferrous) : Theories and
principles of dislocation on strengthening mechanism of metals
emphasized on non-ferrous. Precipitation hardening Equipment and
quality control. MGE 681 3 (3-0-9) (Surface Science and
Engineering) : - -
-
35 Theory of surface reconstructions, electronic properties of
surfaces, interfaces and overlayers. Characterization of surfaces
by photons, electrons and ions as probes. The effect of substrate
surface structure on the overlayer properties. Theoretical and
experimental evaluation of surface energies, solid-liquid and
solid-gas interfaces-surface potentials, colloids, sedimentation,
adsorption and reaction on surfaces. Damage of the surfaces by
corrosion and wear. Wear mechanisms, and categories of wear.
Surface modifications by diffusion, heat treatment and by coatings,
surface processing by laser, electrons and ions. MGE 682 3 (3-0-9)
(Forming Process Analysis) : Plastic forming of metals, bending,
forging rolling, forge rolling, drawing, sheet metal forming,
forging of complicated shapes, geometry of plastic zone,
formability, asymmetry of plastic deformation, Forming analysis
Computer simulation of forming process. MGE 683 3 (3-0-9)
(Solidification Science) : Advanced developments in various phases
of the foundry and welding industries, application of scientific
and engineering principles to solidification phenomena, refining,
metal casting and welding problems. Nucleation and growth theory.
MGE 684 3 (3-0-9) (Advanced Foundry Engineering) : Principles of
liquid metal processing. Molding and casting processes. Foundry
equipment and processing; melting processing, processing of
castings, modeling of solidification and heat transfer, modeling of
microstructural evaluation. MGE 685 3 (3-0-9) (Powder Metallurgy) :
Describing the various typer of powder processing and how these
affect properties of the components made. Current issues in the
subject area, from high production to nanomaterials, will be
discussed. Preparation and fabrication of metal powder; engineering
properties and industrial uses; theory of compaction and
sintering.
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36 MGE 686 3 (3-0-9) (Theory and Practice of Steel
Manufacturing) : In this course the theory and practice of steel
products manufacturing will be reviewed, drawing upon knowledge
from previous courses and the vast knowledge and experience of
several experts from local industry. Topics to be studied include:
carbon and alloy steels, hot-working, cold-working and the
manufacture of common product forms (including both rod and bar and
flat-rolled steel), and welding technology. MGE 691 3 (3-0-9)
(Materials Performance and Reliability) : ( ) ( ) The failure and
wear mechanisms for a variety of materials (metals, ceramics,
polymers, composites and microelectroniccs) . Multi-axial failure
theories. Case studies of failure mechanisms (plastic deformation,
creep, fracture, fatigue, wear and corrosion). Life assessment. The
methodology and techniques for reliability analysis . MGE 692 3
(3-0-9) (Analysis and Control of Materials Processes) : The
fundamentals of the processing-structure property- performance
relationships for casting, powder metallurgy, heat treating and
coating manufacturing processes will be developed. The fundamental
relationships between the process parameters and the specifications
will be examined in terms of process control requirements and
process capability. Process parameter measurement and control
strategies will also be discussed. The course will include team
projects and industrially supplied problems. MGE 601 1 3 (3-0-9)
(Special Topics I) : Teach the advanced topics of current research
interests in physical metallurgy. MGE 602 2 3 (3-0-9) (Special
Topics II) :
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37 Teach the updated and interesting topics in manufacturing
community related to process metallurgy. MGE 603 1 (1-0-3)
(Seminar) : Students form a group to express and discuss their
experience during their industrial research project. MGE 604 12
(Thesis) : This course consists of a laboratory or field project
under the supervision of a faculty member in the related approved
topics. They must write up the thesis and perform final
presentation. MGE 605 6 (Industrial Research Project) : 4 Every
student must complete the industrial research project in
manufacturing industries for 4 months. They must write up the
industrial research project report and perform final
presentation.