DEPARTMENT OF MECHANICAL ENGINEERING

locketparachuteΗλεκτρονική - Συσκευές

15 Νοε 2013 (πριν από 3 χρόνια και 11 μήνες)

123 εμφανίσεις


3
-
1

DEPARTMENT OF MECHANICAL ENGINEERING


UNDERGRADUATE COURSES:


Mechanical

Vibration/3 credits

Prereq: Applied
Mechanics (
2)

1. Free vibration of SDOF systems 2. Forced vibration of SDOF systems

3.
Multi
-
degrevibrations of freedom systems 4. Vibration of con
tinuous systems

5.
Introduction to modal analysis (Prof. Chen, Lien Wen)


Advanced Materials Mechanics/3 credits

Prereq: Materials
Mechanics (
2)

1. Stress and strain 2. Torsion problems 3. Basic analysis of plates & shell

4.
Inelastic deformation 5. Fatigu
e and fracture (Prof
. Chen
, Lien Wen)


Basic Computer Concept

1. Introduction to computer concepts 2. Computer peripheral
devices 3.

Number
systems 4. Data representation 5. Programming language and
program design

6.
MS Dos system and chinese systems 7. In
troduction to
software packages

8. File
and data processing 9. Data communication and
networks 10.

The application and
development of computer future 11. Fortran
programming language

12. Word
processing package: PE3 and Comet

(Prof
. Huang
, Chintien; Wang,
J. J.; Hsu, Lai
Hsing)


Computer

Graphics/3 credits

Prereq: Basic Computer Concept

1. Introduction to computer graphics 2. Two
-
dimensional transformations

3.
Three
-
dimensional transformations 4. Plane curves 5. Space curves

6. Surface
description and gener
ation (Prof
: Hsu
, Lai Hsing)


Automatic

Control/3 credits

Prereq: Engineering
Mathematics (
2)

1. Introduction to control systems 2. Mathematical models of
systems 3.


3
-
2

Feedback control systems 4. Performance of feedback control
systems 5.

Stability
of linear

feedback control systems 6. The root
-
locus
method 7.

Frequency response
method 8. Stability in the frequency
domain 9.

PID control and compensator 10.
Digital control systems

11. Several control experiments will be provided for
hands
-
on experience

(Prof
.

Ju
, Ming Shaung; Shih, Ming Chang; Tsay, Tsing Iuan)


Hydraulic

and Pneumatic Engineering/3 credits

Prereq: Fluid Mechanics

(1) Hydraulic Engineering
: 1.

Introduction 2. Basic principles of fluid power

3.
Hydraulic pump, motors and cylinders 4. Hydraulic
control valves (Direction,
pressure and flow control) 5.
Hydrostatic

transmission 6. Hydraulic
accessories 7. Basic hydraulic control circuits 8. Application of hydraulic
control circuits

(2) Pneumatic Engineering
: 1.

Introduction 2. Compressed air supply
units 3.
Pneumatic
control valves

4. Basic pneumatic control circuits 5.
Design of
pneumatic circuits

6. Application of pneumatic control circuits (Prof
. Shih
,
Ming Chang)


Heat Power Testing (junior)

1. The bomb calorimeter 2. Heating value of gaseous fue
ls

3. Proximate analysis
of coal 4. Liquid fuel analysis 5. Gas turbine test

6. Solar cell tests 7. Rotary engine
tests


Materials Testing

1. Tension with stress
-
strain measurement 2. Mechanical properties in tension

3.
Impact testing, hardness testing, co
mpression testing, fatigue testing

4. Observation
of microscopic structure of steel


Servo Systems/3 credits

Prereq: Automatic Control

This is a continuation of the course in Automatic Control. It

presents the basic
concepts of analysis and design in a se
rvo

mechanism

system where system
components and different control

configurations are studied in some detail. The

3
-
3

main contents of the

course are the basic concepts of a servo system, components'

characteristics, practical analysis skills, design methods
and

performance analysis.

(Prof
. Tsai
, Ming Chi)


Industrial

Electronics/3 credits

Prereq: Electronics

This course is intended to introduce practical industrial control

systems. The
devices and
systems that are presented

have been chosen

to represent a br
oad range
of industrial applications. The overall

aim is to show how individual devices and
circuits interrelate to form

useful systems.

(Prof
. Wang
, J. J.)


Power Plant Design

Practice in boiler design and drawing. The study of fuel and ash

handling
equ
ipment
; pulverizer, condenser, heater, deaerator,

evaporator, water technology,
boiler control.


Thermodynamics

(1) 2 credits

Prereq:
Calculus (
2), General
Physics (
1)

1. Properties of a pure substance 2. Work and heat 3. The first law of

thermodynamics 4.

The second law of thermodynamics 5. Entropy

6. Irreversibility
and availability (Prof
. Lin
, Ta Hui)


Thermodynamics

(2)/2 credits

Prereq:
Thermodynamics (
1)

1. Power and refrigeration cycles 2. Thermodynamic relations

3. Mixtures and
solutions 4. Chemica
l reactions

5. Flow through Nozzles and Blade passages

(Prof
.
Lin
, Ta Hui)


Materials

Mechanics (1)/3 credits

Prereq:
Calculus (
2), Applied
Mechanics (
1)

1. Introduction to stress, strain, and their relationships

2. Axial loading:
applications and pressure

vessels

3. Torsion

4. Flexural loading: stresses

5. Flexural

3
-
4

loading: deflection

6. Combined stresses and failure criteria

7. Columns

(Prof
.
Chen
, Tei Chen; Hwang, Sheng Jyei; Chue, Ching Hwei)

Materials

Mechanics (2)/3 credits

Prereq: Materials
Mechanics

(
1)

1. Theories of stress and strain

2. Advanced topics in torsion problems

3.
Thick
-
wall cylinders

4. Energy methods

5. Curved beams

(Prof
. Chue
, Ching Hwei)


Engineering

Graphics (1)
-
(2)/2 credits

1. Drawing instruments

2. Projection of points, lines an
d planes

3. Auxiliary
views of points, lines and planes

4. Intersections and developments

5.
Multiview
draws
6. Auxiliary views, isometric projection

7. Sections

(Prof. Yang, Yue Tzu;
Lin, Psang Dain; Wu, Jiun Huang)


Engineering Design/3 credits

Prereq: M
achine
Design (
2)

1. Introduction to engineering
design 2.

Engineering design
processes 3.

Creative
design 4.

Engineering
models 5.

Engineering
communications 6.

Design
considerations 7.

Design
protection 8.

Design
automation 9.

System design

10.
Design pr
ojects

(Prof. Yan, Hong Sen)


Machine Design Principles (Mechanical Engineering Design)

Basic, failure prevention application; from fundamental design

theories to
practical machine and mechanical engineering design.


Applied

Mechanics (1)/3 credits

Prereq:

Calculus (
1)

1. General
principles 2.

Force
vectors 3.

Equilibrium of
particle 4.

Force systems
resultants 5.

Equilibrium of a rigid
body 6.

Structural
analysis 7.

Internal
forces 8.

Friction 9.

Center of gravity and centroid

10. Moment of inertia

11. Vir
tual work

(Prof. Chang, Ren Jung)


Applied

Mechanics/3 credits


3
-
5

Prereq: Applied
Mechanics (
1)

1. Kinematics of a
particle 2.

Kinetics of a particle: force and
acceleration 3.

Kinetics of a particle: work and
energy 4.

Kinetics of a particle: impulse and
mom
entum 5.

Planer kinematics of a rigid
body 6.

Planar kinetics of a rigid body:
force and
acceleration 7.

Planar kinetics of a rigid body: work and
energy 8.

Planar
kinetics of a rigid body: impulse and
momentum 9.

Three
-
dimensional kinematics
of a rigid bo
dy

10. Three
-
dimensional kinetics of a rigid body

11. Vibrations
. (
Prof.
Huang, Chintien; Chen, Tei Chen; Chen, Yuan Fang)


Dynamics

of Machinery/3 credits

Prereq:
Mechanisms (
2)

1. Introduction

2. Static force analysis of machinery

3. Dynamic force analy
sis of
machinery

4. Power analysis of gear systems

5. Cam dynamics

6. Balance of
machinery

7. Vibration of shafts

(Prof. Chiou, Shen Tarng)


Advanced

Heat Transfer/3 credits

Prereq: Heat Transfer

1. Transient heat conduction

2. Radiative heat transfer betw
een surfaces and in
the media

3. Convective heat transfer in internal flows and external flows

Prof.
Chen, Han Taw)


Engineering Drawing

1. Engineering graphic language

2. Presentation of three
-
dimensional subjects by
precise graphics

3. Orthographic, pict
orial and dimensioning

4. Fitting tolerance in
mechanical

components


Robotics

and Automation/3 credits

Prereq:
Mechanisms (
2), Applied
Mechanics (
2)

1. Introduction to programming, sensing and servoing techniques

in robotics and
automation

2. 8 laboratori
es and one practice project are included

(Prof: Tsay,
Tsing Iuan)


Heat

Transfer/3 credits


3
-
6

1.
Introduction 2.

Introduction to
conduction 3.

One
-
, two
-
dimensional
steady
-
state
conduction 4.

Transient
conduction 5.

Introduction to
convection 6.

External
flow

7.

Internal
flow 8.

Free
convection 9.

Boiling and condensation

10.
Radiation

11. Heat exchangers

(Prof. Ho, C. J.; Lin, Jen Fin)

Dynamics of Machinery

1.
Introduction 2.

Force
analysis 3.

Force analysis with
friction 4.

Flywheels 5.

Balancing of
mechanis
ms 6.

Critical
speeds 7.

Power
equation 8.

Dynamics of Cam
mechanisms 9. Dynamics of gear mechanisms

10. Dynamics of Robotics


Introduction to Finite Element Method

1.
Introduction 2.

Review of solid
mechanics 3.

ANSYS getting
started 4.

Bar
and truss 5. B
eams and
frames 6.

One
-
dimensional
problems 7.

Plane stress/
strain 8.

Axisymmetry
problems 9.

Isoparamentric elements

10. 3
-
D elasticity

11. Scalar
field problems

(Prof. Chen, Lien Wen; Ho, Shi Pin)


Experiments

in Mechanical Engineering (1)
-
(3)/3 credits

Prereq: (1) General Physics; (2) Mechanical Materials; (3) Fluid

Mechanics,
Thermodynamics (
2)

1. Pressure
measurement 2.

Flow
measurement 3.

Power
measurement 4.

Drag
measurement on cylindrical
bodies 5.

The round turaulent
jet 6.

Temperature
measurement
7.

Measurement of thermal
conductivity 8.

Liquid fuels
analysis 9.

Bomb calorimeter, Junber
calorimeter 10.

Engine performance test (SI engine & CI
engine)

1
1
. Gas turbine test

1
2
. Steam power plant test

1
3
. COP of refrigeration
cycle


Machine

Design Pract
ice/1 credits

Prereq: Machine
Design (
1)

1. Recognition of problems

2. Data surveying

3. Synthesis of mechanisms

4.
Stress
analysis
5. Selection of materials and manufacturing processes

6.
Determination of sizes

7. Analysis and evaluation

8. Drawings and w
ritten
presentations

(Prof. Huang, Chintien; Hsu, Lai Hsing)


Engineering Japanese (1)
-
(2)/3 credits


3
-
7

(1) Pronunciation, various basic patterns of sentences, parts of

speech, names of
foreign countries and
places
, words of

foreign origin.

(2) Expressions of

'liking and disliking', 'desire', 'comparison', 'similarity', 'will',
'speculation', 'invitation', 'asking

for consent'. Expressions equivalent to 'one
must',

expressions equivalent to 'one can', expressions of one's

experience,
technical terms.

(Prof. S
hieh, Earl Chang)


Advanced Fluid Mechanics/3 credits

Prereq: Fluid Mechanics

1. Principles of irrotational flow, incompressible potential flow


(both
two
-
dimensional planar potential flow and three
-

dimensional axially
symmetric flow are discussed)

2. App
lications of complex variables and conformal transformation

to
two
-
dimensional planar potential flows boundary layer

theory
, flow

of
compressible fluid

(Prof
. Shieh
, Earl Chang)


Mechanical

Materials/3 credits

Prereq:
Calculus (
1)

1. Introduction and class
ification of materials

2. Material characteristics
---

mechanical, physical and chemical

properties

3. Mechanical property testing

4.
Crystalline imperfections and deformation5. Phase diagrams

6. Iron
-
iron carbide
phase diagram

7. Heat treatment of steels

8. Engineering alloys and materials

9.
Corrosion and fracture

(Prof. Lee, Hwa Teng; Su, Yean Liang; Lee, Woei Shyan)


Powder

Metallurgy/3 credits

Prereq:
Thermodynamics (
1), Mechanical Materials

1. Introduction

2. Metal powder production

3. Powder characte
rization and
testing

4. Automatic compacting

5. Sintering of metal powder

6. Post processing
for sintering

7. Compacting die and design

8. Powder metallurgy applications

(Prof.
Lee, Woei Shyan)


Engineering Materials

1. Metal working and mechanical propert
ies

2. Strengthening of materials

3.

3
-
8

Non
-
ferrous alloy:
aluminum
, copper, nickel, cobalt &

titanium alloy

4. Ferrous
alloys
: iron

& steel

5. Alloy steel

6. Ceramics

7. Polymer

8. Composite metrials

(Prof. Lee, Hwa Teng; Su, Yean Liang; Lee, Woei Shyan; Hwa
ng, Sheng Jye)


Applications of Electron Microscopy

1. Introduction

2. Theory: electron
-
magnetic interaction, image,
and aberration
3. TEM: thin
-
film, replica, extractive replica, bright and dark

field,
and SAD

pattern

4. SEM: SEI, BEI, WDS,
and EDS
5.
EPMA

6. STEM

(Prof. Lee, Hwa
Teng)


Failure

Analysis of Materials/3 credits

1. Mechanical properties of materials

2. Fracture and failure
mode 3.

Impact
fracture

4. Fracture testing
: KIC

test, J
-
integral, R
-
curve method, COD

and CTOD
method

5. Fatigue

6. C
reep

7. Radiation damage

(Prof. Lee, Hwa Teng)


Strengthening of Metals

1. Introduction

2. Theory of dislocation

3. Strength

4. Solid solution
strengthening 5.

Fine grain

6. Precipitation
hardening 7.

Work hardening

8.
Dispersion hardening

(Prof. Lee, Hwa
Teng)


Thermoelasticity

1. Mechanical and thermodynamical
foundations 2.

Uncoupled and coupled
thermoelastic theory

3. Plane strain and plane stress problems in thermoelasticity

4.
Thermal stresses in beams, plates and thin shells

5. Analysis of inelastic
thermal
stress and viscoelastic
stress 6.

Applications of variational principle and finite
element

method

(Prof. Chen, Tei Chen)


Machine

Design (1)
-
(2)/6 credits

prereq: (1)
Mechanisms (
1), Mechanics of Materials;


(2) Machine Design(1),
Mechanisms(2)

(1
)

Introduction
, stress analysis, strain analysis,
statistical considerations
,
materials and manufacturing methods, strength

of machine parts, tolerance
and fit, screws, fasteners
and connections
, welding and bonded joints.


3
-
9

(2
) Springs
, rolling contact beari
ngs,
lubrication

and
journal bearings
, spur gear,
Helical, Bevel and Worm gears, shaft,

clutches, brackets and couplings,
flexible mechanical

elements, mechanical systems.

(Prof. Li, Ke Yang; Wang,
Ting San; Chen, Ja Hau)


Numerical

Control Machines/3 cred
its

Prereq: Mechanical Manufacturing

1.
Introduction 2.

Principles of numerical control
: structure

of N.C. machines
,
classification

of N.C. systems, coordinate system and machine

axes, N.C. tape
format

3. Basic concepts of N.C. part programming

4. Milling
part programming
and practice

5. Lathe part programming and practice

6. Computer aided part
programming and practice

7. Interpolation and curve fitting

8. Hardware of
numerical control: control system, control device,

machine tool structure and
precision

9
. Future trends

(Prof. Lee, Rong Shean)


Precision

Manufacturing Technology and
Measurements
/

3

credits

Prereq: Mechanical
Manufacturing (
2), Experiments in Mechanical Engineering

1. Introduction of Precision Engineering

2. Metal Cutting Theory

3. Grinding

Theory

4. Economic Analysis of Machining

5. Sensors for Metal Machining and
Automation

6. Non
-
Traditional Machining Processes

7. Metrology Theory and
Technology

8. Precision Measurement System

9. Design of Ultra
-
Precision
Machine Tools

(Prof. Lin, Jehn Mi
ng)


Experiments in Mechatronic System

Experiments
designed

to illustrate the integration of mechanical

and electronic
systems. Measurement techniques, A/D and D/A

conversion, calibration, timing of
controls, characterization of

sensors and control circuit
s. Applications in robots,

electromechanical, pneumatic, and hydraulic systems.

(Prof
. Chen
, Chao Kuang;
Tsay, Tsing Iuan)


Mechanical Materials

1.

Introduction

2.

Atomic Structure Atomic Bonding in Solids


3
-
10

3.

Structures of Metals and Ceramics

4.

Polymer Structures

5.

I
mperfections in Solids: Defects, dislocations, G.B. etc

6.

Diffusion

7.

Mechanical Properties: metals, ceramics and polymers

8.

Deformation and Strengthening Mechanisms: metals, ceramics and
polymers

9.

Phase Diagrams

10.

Phase Transformations

11
Types and Applications o
f Materials: metals/ alloys, ceramics and polymers

(Prof. Chung, Chen
-
Kuei)


Mechanical Drawing

1.

The standard of general mechanical graphics

2.

Principles of
dimensioning

3.

Principles of precision
dimension
s

4.

Mechanical working drawings

5.

Mechanical component drawi
ngs ( Fastening, joining, and standard parts)

(Prof. Chung, Chen
-
Kuei)


Automatic Control / 3 Credits

Prereq: Engineering Mathematics (2)

Introduction to control systems

Mathematical Models

Feedback Control and Time Response

Frequency Response

Stability of

Linear Systems

Root Locus

PID Controller Design

Lead/Lag Compensator

Digital Control Systems

Experiments

(Prof.
Tsai, Nan
-
Chyuan
)


3
-
11


Electronics/ 2 Credits

Prereq: Electrical Engineering

Introduction of Electronic Elements

RC and LCR circuit

Diode and Its
Applications

BJT and Its Properties

CE, CB and CC Transistors

FET Elements

Frequency Response

OP Amplifier

Digital IC and Circuits

Oscillators

(Prof.
Tsai, Nan
-
Chyuan
)


Fundamentals of Automotive Vehicle Crash Mechanics/ 3credit

1. Introduction: Crash Sign
ature and Typical Testing Method, Coordinate System,
Sensor, and Digital Filter. 2. Crash Pulse and Kinematics. 3. Analysis of Crash Test
Data: Vehicle Response, Occupant Response
-

Dummy Calibration and Testing
Response Analysis. 4. Injury Index
(Prof.
Hua
ng, Tsai
-
Jeon
)


CAD Applications/ 3credits

1. Introduction. 2. Create 3D solid model by using existing software:
Components and Assembly. 3. Generate drawing from 3D solid model 4. Computer
Aided Manufacture 5. Develop the NC machine from 3D solid model 6.

FEA
Modeling: Static and Dynamic Analysis
(Prof.
Huang, Tsai
-
Jeon
)



GRADUATE COURSES


Applied

Plasticity/3 credits

1. Introduction: scope and applications

2. Plastic constitutive equations

3.
Plastic material testing

4. Basic equations for plasticity

5.

Analytical methods for

3
-
12

plasticity problems

6. Slip
-
line field method

7. Upper bound method

8.
Visioplasticity method

9. Finite element method

(Prof. Lee, Rong Shean)


Internal

Combustion Engines/3 credits

1. Engine types and their
operation 2.

Engine desi
gn and operating
parameters 3.

Thermochemistry of fuel
-
air
mixtures 4.

Properties of working
fluids 5.

Ideal
models of engine
cycles 6.

Gas exchange
processes 7.

SI engine fuel metering and
manifold 8.

Charge motion within the
cylinder 9.

Combustion in spa
rk
-
ignition
engines

10. Combustion in compression
-
ignition engines

11. Pollutant formation
and control

12. Engine friction and lubrication

13. Modeling real engine flow and
combustion processes

14. Engine operating characteristics

(Prof. Chiu, Cheng
Ping)


Theory of Vibration

Principle of mathematical modeling, vibration of a single degree

system,
introduction to advanced dynamics, generalized eigenvector and

eigenfunction
expansion, vibration of a multiple degree system,

vibration of a continuous system,
a
pproximation methods and Rayleigh

quotient.


Engineering

Analysis/3 credits

Eigenfunction expansion: vector space, functional space,

generalized Fourier
series, Sturm
-
Liouville problems,spectrum

theorem of an operator, special
functions

Integral transform
: applications of Fourier, Laplace,

Hamilton and Mellin
transform

Green's function: Green's function of ordinary and partial

differential equation,
generalized Green's function

Calculus of variation: Euler
-
Largrange equation, Sturm
-

Liouville problems,
H
amilton's principle, boundary value

problems, the Rayleigh
-
Ritz method, the
Galerkin method, a

semidirect method

Integral equation: the Neumann series, Green's function,

Fredholm theory,
Hilbert
-
Schmit theory, Mercer's theorem,

singular integral equation

(Prof.
Chen, Chao Kuang; Lee, Sen Yung)


3
-
13


Introduction to Polymer Processing

1. Introduction to polymeric materials processing

2. Introduction to properties of
polymeric material

3. Introduction to mathematical simulation

4. Basic
mathematical equation

5. P
olymeric flow variable basic properties analysis

6.
Polymeric materials process heat transform analysis

7. Polymeric materials process
mechanics analysis

8. Example discuss

(Prof. Hwang, Sheng Jye)


Multi
-
Rigid Body Dynamic

1. Introduction to multi
-
rigid b
ody system research

2. Rigid body dynamics

3.
Basic rigid body system

4. Generally multi
-
rigid body system

5. The impact
problem of multi
-
rigid body system

(Prof. Ju, Ming Shuang)


Cooling Technique of Electronic Equipments

1. Judgement of cooling requirem
ent condition

2. Transform cooling of base and
circuit plane3. Cooling technique of electronic element

4. Cooling of small
computers, microcomputers and microprocessors

5. Rapidly cooling of electronic
system

6. Special application of cooling process


Mech
anical Logical Control System

1. Introduction to automatic Machine

2. Basic theory of logical control
-

Boolean
algebra

3. Electronic logical control circuits

4. Relay control circuits

5. Hydraulic
& Pneumatic logical control circuits

6. Programmable contr
oller & control
instruction

7. Microcomputer logical control

8. Practice controller design


Control of Biological System

1. Introduction
-

motor system, central nervous system

2. The mechanic property
of muscle

3. Movement unit

4. The sensation of muscles,

joints and skin

5. The
reflective loop of the vertebra column and its
function 6.

The forward and
backward paths of vertebra column

7. Cerebellar cortex

8. The
cerebellum 9.

Base
neuro node

(Prof. Ju, Ming Shuang)


Robust Control


3
-
14

1. Introduce the system d
esign idea of stability and function

robustness

2.
Quantify the robustness in order to be calculated and

estimated

3. Utility the design
methods and apply example explains the

design points and characteristics of the
robustness controller

(Prof. Tsai, Ming

Chi)


Polymeric Materials and their Mechanical Properties

1. Introduction to polymeric materials

2. Introduction to individual properties of
polymeric
materials
3. Molecular properties of polymeric materials

4. Structure of
polymeric materials

5. Chemical

properties

of polymeric materials

6. Physical
properties

of polymeric materials

7. Mechanical properties of polymeric materials
Hyperelasticity

Viscoelasticity

Creep

Non
-
Newtonian fluids

Modeling & Simulation of Dynamic System

1. Introduction to system si
mulation

2. Physical system simulation and
experiment

3. Physical system dynamic response simulation and analysis

4. Digital
simulation technique

(Prof. Chang, Ren Jung; Shih, Ming Chang; Ju, Ming Shaung;
Tsai, Ming Chi)


Signal Measurement & Control/3 cre
dits

1. Introduction to measurement and control

2. Signal sense interface

3. Signal
conduct, analysis, processed

4. Control signal generated and analysis

5.
Measurement and control system integrated design


Mechatronics

1. Introduction to mechanic
properti
es 2.

Mechatronic signal conversion

3.
Mechatronic actuated energy conversion

4. Mechatronic elements match and
interface

5. Mechatronics system design

(Prof. Chen, Chao Kuang; Chang, Ren
Jung)


Solar Energy Engineering

1. Basic theory of solar energy radi
ation

2. Basic theory of solar energy system
fluid mechanics and heat transfer

3. Solar energy collector of plane type

4. Solar
energy collector of collective type

5. Solar energy adding heat system

6.
Ec
o
nomical analysis of solar energy system
,
(Prof. Che
n, Han Taw; Wu, Chih

3
-
15

Yang)


Random

Dynamic Data Analysis/3 credits

1. Scope of random data
analysis 2.

Basic statistic
principle 3.

Random data
a
c
quisition and
storage 4.

Random data
processing 5.

Random data
estimator 6.

Fourier
analysis 7.

Spectral
analy
sis 8.

Relativity
analysis 9.

Applications of
ARMA/ARMAX model

10. Max. distribution estimate

(Prof. Chang, Ren Jung)


Feedback Control System Design

1. Introduction to feedback theory

2. Feedback time
-
domain design

3. Feedback
frequency domain design

4. S
tate space design

5. Digital feedback design

(Prof.
Tsai, Ming Chi; Chang, Ren Jung)

Stochastic

Control/3 credits

1. The
theory of stochastic controls
2. Background in probability theory

3.
Introduction to random processing

4. Random integral/
differential

& derivative
equation

5.
Stochastic

system response

6. Kelvin
filters
7. LQC analysis

8.
Nonlinear stochastic control design

(Prof. Chang, Ren Jung)


Fundamentals of Metal Cutting/3 credits

1. Machine Tools and Machining
Operations 2.

Mechanics of Metal Cu
tting 3.
Temperatures in Metal
Cutting 4.

Tool Life and Tool
Wear 5.

Cutting Fluids and
Surface
Roughness 6.

Economics of Metal Cutting
Operations 7.

Chip
Control 8.

Grinding 9.

Theory of Machining Chatter

10. Machine Tool Structure Dynamics

11.
Cutting Pr
ocess Dynamics

(Prof. Lin, Psang Dain)


Advanced Polymer Processing

1. Dynamic response of polymeric m
ate
rials

2. Measurement of rheological date
of polymeric
materials 3.

Constitutive equations of polymeric materials

4.
Curvalinear coordinate

5. Convected

coordinate

6. Differential form of constitutive
equations 7.

Integral form of constitutive equation

8. Summary of
constitutive

equations

9. Case study of polymer processing

(Prof. Hwang, Sheng Jye)


Mechanics of Metal Working


3
-
16

1. Stress and
Strain 2.

Yield

criteria and
Plasticity 3.

Strain
hardening 4.

Strain
rate and Temperature
effects 5.

Plastic
work 6.

Slab analysis for rolling, extrusion
and
drawing 7.

Upper bound
method 8.

Slip
-
line field
theory 9.

Formability

10.
Bending

11. Cupping

12. Sheet metal f
orming


Theory

of Gearing/3 credits

This course covers principles and problems in gearing from a

theoretical
viewpoint. The analysis and synthesis of gearing and other

topics in gear design are
investigated. Mathematical emphasis is on

plane curves, conjug
ated shapes,
surfaces
, and

conjugated surfaces. The

background of basic differential geometry is
considered (though not

necessary) helpful for understanding the materials covered
in this

course. Even though this course covers mainly plane gearing, students

can
easily apply similar techniques to the study of spatial gearing.


1. Coordinate transformation and its applications

2 homogeneous

transformation

Generation of curves and surfaces in matrix representation

3
Transformation
of motion

2. Plane curves

1
De
finition and parametric representation

2
Tangent
, normal

and
curvature

3. Coujugate shapes

1
Locus of curves

2
Envelope of locus of curves

3
Determination of conjugate shapes

4. Plane gearing analysis

1
Equations of tooth shape tangency

2
Analysis of
meshi
ng

5. Basic kinematic relations of plane gearings and their

Application

1
Basic
kinematic relations

2
Relations between curvatures of conjugate shapes

3
Relations between centrode
and shape

curvatures

4
Conditions of tooth
nonundercutting

6. Generation of
conjugate shapes

1
Principles of generation of conjugate shapes

2
The Camus theorem

3
Evolute of conjugate shapes

7. Surfaces and conjugate surfaces

8. Survey of current research

(Prof. Huang, Chintien)


Mechine

Tools Dynamics/3 credits

1. Vibration of dis
crete and continuous systems

2. Dynamic characteristics of

3
-
17

cutting process & machine tool structure

3. Stability analysis of machining system

4.
Dynamic analysis of drive system and components

5. Adaptive control of cutting
process

6. Monitoring and contro
l of machining system

(Prof. Wang, J. J.)


Metal

Cutting Dynamics/3 credits

1. Review of basic orthegonal and oblique cutting process

2. Mechanics of wave
generating cutting process

3. Mechanics of wave removing cutting process

4.
Convolution
modeling

of m
illing process

5. Frequency domain analysis of milling
force pulsation

6. Effects of cutting parameters and tool shape on cutting force

and
cutting stability (chatter)

7. Effects of cutting conditions on dimensional accuracy
of

workingpiece

8. Monitoring a
nd control of cutting process (Prof. Wang, J. J.)


Applied Mechanics (2)/3 credits

1. Rigid body dynamics in 3
-
dimensional motion

2. Modal analysis of discrete
system vibration

3. Introduction to continuous system vibration

4. Introduction to
variational a
nd Hamiltions principle

5. Euler and Lagrange's equations of motion



Linear Algebra

1. Introduction to numerical analysis

2. Roots of algebraic and transcendental
equations

3. Solution of simultaneous algebraic
equations 4.

Curve fitting

5.
Numerical inte
gration and
differentiation 6.

Numerical integration of ordinary
differential equations: Initial
-
value problems7. Numerical integration of ordinary
differential equations:

Boundary
-
value problems

8. Introduction to partial
differential equations


Modern

Co
ntrol Theory/3 credits

1. State space representation of control systems

2. Structure of linear systems

3.
Control of linear time
-
invariant systems

4. Asymptotic observer and dynamic
compensator design

5. Stability of control systems

(Prof. Ju, Ming Shuang)

Automatic Control Engineering/3 credits

1. Introduction

2. Laplace transform and matrix

3. Dynamic modeling of
physical systems

4. Transfer function and block diagrams

5. Transient analysis of
control systems

6. Stability analysis: root locus

7. Frequency

analysis

8. Industrial

3
-
18

controllers

9. Design of control systems

(Prof. Shih, Ming Chang; Ju, Ming
Shaung)


Heat Power Lab Testing (senior)

1.
Pressure,

speed and time measurement

2. Power measurement

3. Analysis of
products of combustion

4. Heat transfer

tests

5. Automobile engine performance
tests

6. Testing of reciprocating air compressor



Heat

Exchanger Design/3 credits

1. Classification of heat exchangers

2. Heat transfer analysis of various heat
exchangers

3. Pressure drop analysis of various heat e
xchangers

4. Computer
-
aided
design and optimization

5. Transient responses of heat exchangers

6. Flow
-
induced
vibrations of heat exchangers

(Prof. Jang, Jiin Yuh)


Design Methodology

1. Introduction to design

2. Design processes

3. Conceptual design and
in
novation

4. Quantitative and systematic methods for design

5. Intelligent and
knowledge
-
based systems for design

6. Information integration and management

7.
Human interface aspects in design


Tribology
/3 credits

Friction, wear and lubrication, theories an
d practices of

interacting surfaces in
relative motion
. (
Prof. Li, Ke Yang)


Trilogy

Research/3 credits

Tribological system research; special topic study in mechanical

engineering
problem related to friction, wear and lubrication.

(Prof. Li, Ke Yang)


Expe
rimental

Stress Analysis/3 credits

1.
Stress,

strain

2. Strain gages

3. Photoelasticity

4. Holographic interferometry,
speckie photography, Moire' Method

(Prof. Chen, Yuan Fang)


Digital Image Processing


3
-
19

1. Basic
principles 2.

Algorithms for filtering, edg
e detection, segmentation,
enhancement
, etc

3. Applications of digital image processing: visual inspection,

measurement,
and interferogram

analysis


Advanced

Kinematics of Machinery/3 credits

1. Introduction

2. Basic concepts of mechanisms

3. Kinematic ana
lysis of spatial
mechanisms

4. Kinematic synthesis of spatial mechanisms

5. Special topics: Spatial
mechanisms

(Prof. Chiou, Shen Tarng)


Viscous

Fluid Flow/3 credits

1. Fundamental laws of fluid flows

2. Exact solutions of Navier
-
stokes equations

3. Low R
eynolds number flows (Stokes flow, Oseen flow)

4. High Reynolds
number flows (boundary layer theory)

5. The exact and approximate solutions of
boundary layer flows

6. Jets and wakes

(Prof. Jang, Jiin Yuh)


Statistical Thermodynamics

1. Classical mechanics

2. Theory of relativity

3. Quantum mechanics

4.
Statistical mechanics of a system of independent particles

5. Distribution laws

6.
Partition function and thermodynamics

7. Classical statistical mechanics and the
kinetic theory of

gases

8. Statistical mecha
nics and chemical equilibrium constant,

viscosity, thermal conductivity, diffusion coefficient of

ideal gases


Fluid Power Control

1. Introduction

2. Basic hydraulic restriction flow control

3.
Mechanical
-
hydraulic servovalves and electro
-
hydraulic

servova
lves

4. Servovalve
control actuator systems

5. Servopump control actuator systems

6. Pressure and
flow control valve design analysis

7. Pneumatic servo
-
control system analysis


Digital Control System Analysis and Design

1. Introduction

2. Discrete
-
time sys
tems and the z
-
transform

3. Sampling and
construction

4. Open
-

and closed
-
loop discrete
-
time systems

5. System time
response characteristics

6. Stability analysis techniques

7. Optimal control design



3
-
20

Optimal

Control/3 credits

1. Overview 2. Review of opti
mization theory 3. Problem formulation,
constraints and performance 4. Bellman's principle of optimality, recurrence
relation and
dynamic

programming 5. Computational procedure for dynamic
programming, discrete

linear regulator problems 6. Hamilton
-
Jacobi
-
Bellman
equations, continuous linear regulator

problems 7. Calculus of variations 8.
Necessary conditions, linear regulator problems 9. Pontryagin's maximum principle,
state inequality constraints

10.
Minimum
-
time problems, minimum control
-
effort
problems

11. Singular intervals in optimal control problems

12. State estimation &
Kalman filters

13. LOG problems

14. Numerical solution of two
-
point boundary
value problems

(Prof. Ju, Ming Shaung)


System Identification/3 credits

System identification deals with
the problems of building

mathematical models
of dynamical systems based on observed data from

the systems. This course is
aimed at giving an understanding of

current system identification methods, their
rationale, properties and

use. Both the basic princi
ples and practical aspects of
system

identification will be given in great detail.

(Prof
. Ju
, Ming Shaung)


Adaptive

Control Theory/3 credits

1. Introduction of adaptive systems

2. Real
-
time system identification

3. Model
reference adaptive control systems

4. Self
-
tuning regulators

5. Stability,
convergence, and robustness of adaptive systems

6. Auto
-
tuning & gain scheduling

7. Applications

(Prof. Ju, Ming Shaung)


Theory

of Elastic Stability/3 credits

1. Stability of mechanical systems

2. Stability of colu
mns

3. Buckling of thin and
thick
plates 4.

Buckling of thin
shells 5.

Post
-
buckling behavior of plates & shells

6.
Stability of nonconservative systems

(Prof. Chen, Lien Wen)


Plasticity

Introduction:

1.

Hysteresis effect, Bausinger effect, combined stre
sses
.


3
-
21

2. yield

criteria

Plastic stress
-
strain relations: Incremental and deformation
theories

3. Elasto
-
plastic problems in plane, cylindrical and spherical bodies: Successive
approximations

4. Slip line field and applications

5. Limit design analysis

6. A
pplications in metal forming: Drawing, extension, rolling,
and forging.


Magnetohydrodynamics

1. Introductions: Plasma, Lamour radius, Debye length, Plasma frequency,
Magnetic Renolds Number, magnetic Mach numbers, Hartmann numbers

2. Electrodynamic equati
ons: Maxwell equations, electromagnetic stresses,
and
electromagnetic energy

3. MHD equations: MHD simplifications, and boundary conditions

4. Static solution and application of MHD equations: Squeeze effect

5. Steady state solutions and applications of MH
D equations: Hartmann flow,
channel flow, lubrication flows

6. Unsteady state solutions of MHD equations: Plane electromagnetic waves,
shock waves, Alfoeu waves


Hydrodynamic Stability Theory

1. Basic concept: stability, natural stability, interchange prin
ciple of
instability,

supercritical stability

2. Raleigh
-
Taylor instability

3. Bernard problems

4.
Instability problems of Coustte flows

5. Instability problems due to surface tension

6. Instability problems of parallel flows

7. Instability problems due to

stratified
distributions of viscocity

8. Instability problems due to periodic excitations

(Prof.
Weng, Cheng I)


Nonlinear

Vibrations/3 credits

1. Principle of mathematical modeling

2. Characteristic of a nonlinear
differential

equation

3. Phase plane and

stability analysis

4. Perturbation method

5.
Nonlinear forced vibration of
a

one
-
degree

freedom system

6. Parametric and
self
-
excited vibration system

7. Liapunov stability theorem

8. Bifurcation and

3
-
22

catastrophe theorem

(Prof. Lee, Sen Yung)


Theory of El
astic Waves

1. One
-
dimensional motion of an elastic continuum

2. The linearized theory of
elasticity

3. Elastic waves in an unbounded medium

4. Elastic waves in elastic
half
-
space
5. Forced motions of a half space, diffraction, thermal,

viscoelastic and
no
nlinear effects


Computer
-
aided Mechanical Engineering

Methodology and practice in computer
-
aided design of components

and systems
utilizing principle of several mechanical engineering

disciplines.


Mechanical Design of Robotic System

Principle of hardware

and software design of industrial robots

and spatial linkage
devices, includ
ing

an actual robotic programming

project.

(Prof. Tsai, Ming June)


Kinematic

Geometry of Robot Manipulators/3 credits

1. Introduction of screw theory

2. Plucker coordinate

3. Mob
ility analysis

4.
Singularity configuration

5. Reciprocal connection and their applications to
kinematic/static

analysis in spatial linkage

(Prof. Tsai, Ming June)


Special

Topics on Mechanism Design/3 credits

1. Introduction to mechanism
design 2.

Mechani
sm and machine design
processes 3.

Creative mechanism
design 4.

Number synthesis of
kinematics

chains
5.

Generalization of
mechanism 6.

Specialization of
mechanism 7.

Singular
configurations of
mechanism 8.

Movable overconstrained
mechanism 9.

Computer
-
aid
ed mechanism design

10. Design projects

(Prof. Yan, Hong Sen;
Huang Chintien)


Design Methodology

1. Introduction to design

2. Design processes

3. Conceptual design and
innovation

4. Quantitative and systematic methods for design

5. Intelligent and
knowled
ge
-
based systems for design

6. Information integration and management

7.

3
-
23

Human interface aspects in design


Instruments and Measurements

1. Introduction

2. The analog measurement and its time
-
dependent
characteristics
3. Measuring system
response 4.

Senso
rs

5. Signal conditioning

6. Characteristics
of digital measurement

7. Standards of measurement

8. Error analysis

(Prof. Ho, C.
J.)


Computational

Fluid Dynamics/3 credits

1. Introduction

2. Concept of finite difference method

3. Basic equations

4.
Turbule
nce
modeling 5.

Finite difference methods for incompressible flow

6.
Compressible

flow

(Prof. Ho, C. J.)


Optimum

Design/3 credits

1. Introduction

2. Problem formulation

3. Optimum design concepts

4. Linear
programming

5. Numerical methods for unconstrain
ed optimum design

6.
Numerical methods for constrained optimum design

7. Interactive design
optimization

8. Practical design optimization

(Prof. Chiou, Shen Tarng)

Finite

Element Method/3 credits

This course will introduce the fundamental theory of the fin
ite

element method
and train students using Fortran to finish a finite

element program independently.
Course content
: introduction

to the

finite element method, one
-
dimensional
problems, development of a

finite element program, two
-
dimensional problems,
t
wo
-
dimensional

element calculations,
and extensions.
(Prof
. Lai
, Hsin Yi)


Application of Finite Element Method

1. Introduction

2. Using ANSYS modeling

3. Vector field problems (review of
elasticity, bar, truss, beam,

frame, plane stress/strain, axisymmetr
y problems, 3
-
D

elasticity)

4. Using ANSYS
adaptive meshes
5. Solver (profile solver, frontal solver,
iterative solver,

comparison)

6. Nonlinear problems

7. Dynamic problems

8.
Eigenvalue problems

(Prof. Chen, Lien Wen; Ho, Shi Pin)



3
-
24

Engineering Statistics

1. Basic data
analysis 2.

Frequency
histogram 3.

The average, sample variance
and sample standard
deviation 4.

Theoretical probability
distribution 5.

Probability
density 6.

Population mean
variance 7.

Normal
distribution 8.

Standard normal
distribution 9
.

Distribution of average

10. The t
-
distribution confidence interval

11.
Statistical tests

12. T
-
tests, blocking and randomization

13. Two
-
level factorial
designs

14. Two level three variable
design 15.

Fractional
factorial

design

16.
Matrix algebra

17. Re
gression analysis

18. Response surface methodology

19.
Probability

20. Binomial and Poisson
distribution 21.

Single sampling plane22.
Control charts

23. Time series analysis


Advanced Engineering Thermodynamics

1. Fundamentals

2. Mathematical preliminaries

3. Equilibrium of thermodynamic
systems, energy and entropy

4. Thermodynamic properties of systems of constant
chemical

composition

5. Thermodynamic properties of ideal gases and ideal gas
mixtures

of constant composition, thermodynamic properties of gas

mixtures with
variable compositions

6. Applications of thermodynamics to special systems

7.
Irreversible thermodynamics


Fundamentals

of Combustion/3 credits

1. Combustion process

2. Combustion thermodynamics

3. Chemical
kinetics 4.

Rankime
-
Hugoniot
relati
ons 5.

Premixed flame, diffusion flame, ignition,
quenching and

flammability limits

6. Explosion

7. Gaseous detonations

8. Spray
combustion

9. Environmental pollutants

(Prof. Lin, Ta Hui)

Theory

of High Strain Rate Deformation/3 credits

1. Dynamic aspects
of mechanical teating
, testing

techniques at

impact rates of
strain, longitudinal elastic wave propagation

torsional elastic wave propagation,
plasticity concepts

2. Deformation mechanisms

3. Dislocation mechanics at high
strain rates

4. Dynamic effects in

deformation twinning

5. Adiabatic shear bands
phenomena

6. Shock wave effects

7. Relation between microstructure and
mechanical behavior

8. Constitutive equations and modeling

9. Applications:
structural integrity and dynamic plastic

behavior of structur
es

(Prof. Lee, Woei
Shyan)


3
-
25


Impact

Fracture Mechanics/3 credits

1. Introduction to impact phenomena

2. Material failure at high strain rates

3.
Material characterization at high strain rate

4. Introduction to penetration
mechanics

5. Long
-
rod penetration m
echanics

6. Analytical models for kinetic
energy penetration

7. High velocity impact dynamics

8. Experimental methods for
terminal Ballistics and impact

physics

9. Survey of computer codes for impact
simulation

(Prof. Lee, Woei Shyan)


Special Topics on Ma
terials

Panel discussions and lectures in the study of special topics

related to materials
and factories
: heat

treatment, superalloy,

metallographic microstructure,
microanalysis, failure analysis, case

study and trouble shooting.

(Prof. Lee, Hwa
Teng)


Me
tal

Physics/3 credits

1. Crystal structure: lattice, millers, indices, defects.

2. Phase equilibrium
: solid

solution, intermettalic phase.

3. Dislocation: slip, strength, Burger vector,
dislocation

movement, critical shear stress, interaction.

4. Mechanic
al properties:

plastic

deformation, twin, yielding
, strengthening

mechanisms, fatigue, creep.

5.
Diffusion.

6. Corrosion and fracture.

(Prof. Lee, Hwa Teng)

Special

Topics on Metal Forming/3 credits

Tooling design concepts in metal forming, physical modeli
ng of

metal forming,
mechanics of metal forming, formability test and

analysis, tribology of metal
forming, CAD/CAM in metal forming, and

superplasticity superplastic forming,
powder forging
and

extrusion,

expert systems for metal forming, recent
technolog
ical

development

in metal forming
. (
Prof
. Lee
, Rong Shean)


Computer
-
Aided Manufacturing/3 credits

1.
Introduction 2.

CAD/CAM
systems 3.

Geometric
modeling 4.

Principles of
numerical
control 5.

CAD/CAM
software 6.

Computer controls in NC (CNC, DNC,
adaptiv
e control
) 7.

Industrial robots
-

technology and
applications 8.

Group
technology and process
planning 9.

Computer aided process planning

10. Computer

3
-
26

process control

11. Computer aided quality control

12. Computer integrated
manufacturing systems

(Prof. L
ee, Rong Shean)


Geometric

Modelling and its Applications/3 credits

1. The description of geometric shape and size, such as curves,

surfaces and
solids of mechanical objects.

2. The transformations operations of geometric shape.

3. The study of current geo
metric
modeling

system and their

capabilities 4.

The
study of contemporary development and future trends.

(Prof. Hsu, Lai Hsing)


Mechanics

of
Materials

(2)/3 credits

Deals

with the application of basic elasticity theory on
the torsion
, thick
-
walled
cylind
er and column buckling problems. The

material failure design criteria and
energy, methods are also

included.1. Theory of Elasticity

2. Torsion

3. Yield and
Fracture Criteria

4. Buckling Theory for
Column
5. Energy Methods

(Prof. Chue,
Ching Hwei)


Mechanic
al Material

1.
Introduction 2.

Mechanical
Testing 3.

Structure 4.

Phase Equilibrium
Diagram
5.

Atomic
Diffusion 6.

Solidification 7.

Strength and
Deformation 8.

Strengthening
Mechanism 9.

Heat Treatment

10. Alloy Steels

11. Cast Irons

12. Corrosion and
Deg
radation

Metal

1.
Introduction 2.

Crystal
Structure 3.

X
-
ray
Diffraction 4.

TEM 5.

SEM 6.

Diffusion 7.
Dislocation 8.

Solidification 9.

Metal Strengthening Mechanism

10.
Metal Degradation

(Prof. Lee, Hwa Teng)


Steel

Material/3 credits

1. Manufacturing

2.
Heat Treatment

3. Specification

4. Structural Stells

5. Tool
Steels &Die Steels

6. Stainless Steels

7. Cast Irons

(Prof. Lee, Hwa Teng; Su, Yean
Liang; Lee, Woei Shyan)


Fracture

Mechanics/3 credits


3
-
27

Fracture Mechanics deals with the analysis of fracture be
havior

for cracked body.
It contains the general
introduction
, Linear

Elastic Fracture
Mechanics
,
Elastic
-
Plastics Fracture Mechanics,

Fatig
u
e Crack, and the Numerical (eg. finite
element method

Fracture Mechanics.

(Prof
. Chue
, Ching Hwei)


Mechanical Des
ign of Robotics System

1. Introduction to Robotics System

2. Structural Design of Manipulators

3.
Kinematic Analysis

4. Dynamics Analysis

5. Trajectory Planning

6. Programming

7.
Control Algorithms

8. Robotics Vision and Sensing

9. Design Project and Syste
m
Integration

(Prof. Tsai, Ming June)


Robotics and Automation

1. Introduction

2. Geometric Structure of Robots

3. Kinematics of Robotics

4.
Robotics Programming Language

5. Robotic Task
Planning 6.

System Integration
and Implementation

7. Experiments

(Pro
f. Tsai, Ming June; Tsay, Tsing Iuan)


Nonlinear

Control/3 credits

Nonlinear system
analysis:

phase plane analysis, describing

function analysis,
and Lyapunov analysis. Nonlinear control

system
design:

feedback linearization,
sliding mode control, and

gain

scheduling.

(Prof
. Tsai
, Tsing Iuan)


Dynamic

system Modeling and Indentification/3 credits

Generalized approaches to developing models for describing

complex dynamic
interactions between mechanical, electrical, and

thermal systems. Basic
identification t
echniques and algorithms.

(Prof
. Tsai
, Tsing Iuan)


Screw

Theory and
its

Application/3 credits

1. Introduction of 3
-
D geometry and mechanisms. Elementary 3
-
D

displacement.
Dulity between statics and kinematics.


2. Plucker line coordinates, line geometry
a
nd 3
-
D
algebratic curves.

3. Screw systems and special screw systems.


4.
Screw and dual vectors.


5. Mobility analysis of linkages and overconstrained
linkages.


6. Special configurations.


7. The applications of the screw system.


8.
Reciprocal connecti
ons.


9. The Jacobian and matrix of cofactors.

10. Contact and

3
-
28

grasping wrench s
c
rew system.

11. Finite screw system.

(Prof. Tsai, Ming June;
Huang, Chintien)


Computer
-
Aided Mechanical Design

1.

Introduction to CAD system.

2. Introduction to CAD/CAM/CAE appl
ied
software.

3. 3
-
D space geometry data structure.

4. Numerical analysis
methods for mechanical problems.

5. Computer
-
aided mechanism design.

6.
Special topics.

(Prof
. Tsai
, Ming June)


MEMS Technology and Integration

1.

Introduction to MEMS/MST

2.

Basic semic
onductor/IC process

3.

Bulk micromachining

4.

Surface micromachining

5.

LIGA/LIGA
-
like

technology

6.

CMOS micromachining

7.

Micro mechanical machining

8.

Integration of MEMS technology

9.

Case study

(Prof. Chung, Chen
-
Kuei)


to be announced, Spring term, 2004

(Prof.
Tsai, Nan
-
Chyuan
)


the Technologies of Semiconductor Fabrication Processing and Equipment

1. Introduction

2.

Thermal Oxidation and Diffusion Processing and Equipment

3.

Deposition Processing and Equipment

4.

Lithography Processing and Equipment

5.

Etch Processing and Equipment

6.

Iron Implantation Processing and Equipment

7.

Rapid Thermal Processing and Equipment

8.

Wafer Planarization Processing and Equipment


3
-
29

9.

Process Integration

10.
Plasma Techniques

11.
Mass Flow Controller and Gas Panel

12.
Vacuum Technology

13.
Tool Automation

14.
Future Development and

Prospectives

(Prof. Hsu, Jyue
-
Liang)