COLEGIO SAN AGUSTIN – BACOLOD
COLLEGE OF ENGNEERING
SECOND SEMESTER AY 2012-2013
COURSE NUMBER
: AES 202E
COURSE TITLE
: FUNDAMENTALS OF MATERIALS SCIENCE AND ENGINEERING
CREDIT UNITS
: 3 Units
CONTACT HOURS/WEEKS
: 3 Hours
CONTACT HOURS/SEMESTER : 54 Hours
PREREQUISITE (IF ANY)
:
COURSE DESCRIPTION
: Structure and composition of materials (metals, polymers, ceramics and composites). Processing, properties and behavior in
service environments.
GENERAL OBJECTIVES
At the end of the semester, the students will be able to:
1. Identify the importance of materials to mankind through specific examples of materials which have had significant impact to civilization.
2. Identify the different ways of classifying various materials.
3. Identify the different material properties and how these are affected by the composition and structure.
4. Determine the ways by which material properties can be engineered or modified to meet certain requirements related to their intended use.
5. Select the appropriate material(s) for a given application.
6. Evaluate feasibility of designs based on material considerations.
MAJOR PROJECT
:
OTHER COURSE REQUIREMENTS:
TERM, WEEK NO.
& DATE
Week No. 1
PROTOTYPE PROJECT, LABORATORY COMPILATION, RESEARCH PAPER, CASE STUDIES, ETC…
ASSIGNMENTS, SEATWORKS, EXERCISES, CASE ANALYSIS, ETC…
SPECIFIC OBJECTIVES
(list them
corresponding to the
course content for the
week)
To be familiarized
COURSE CONTENT
(Indicate number of
sessions) & VALUE
EMPHASIS
STRATEGIES/ACTIVITIES
FOR THE WEEK
Course Orientation,
Discussion
EVALUATION/Esse
ntial Question/s
for the week
TEXTBOOK/REFERENCES/ASSIGNMENT
(PLS. USE THE APA FORMAT)
Student Handbook
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 1 of 7
Nov. 6, 8
Week No. 2
Nov. 13, 15
Week No. 3
Nov. 20, 22
Week No. 4
Nov. 27, 29
Week No. 5
Dec. 4, 6
Week No. 6
Dec. 11, 13
with the guidelines
and policies of the
school and the subject
Guidelines, And Policies
To understand and be
familiarize with the
concept of atomic
structure and bonding
Introduction, Atomic
Structure And
Interatomic Bonding
Lecture
Quiz, Assignment
To understand and be
familiarize with the
structure of crystals
and atomic
arrangement of solids
To understand and be
familiarize with the
concept of
imperfection and
diffusion
To understand the
mechanical properties
of metals
The Structure Of
Crystalline Solids
Lecture
Quiz, Assignment
Imperfections In Solids
And
Diffusion
Lecture
Quiz, Assignment
Mechanical Properties Of Lecture
Metals
Quiz, Assignment
To understand the
importance
dislocation and
strengthening
mechanisms
To learn how to
determine failure and
Dislocations And
Strengthening
Mechanisms
Lecture
Quiz, Assignment
Failure And
Phase Diagrams
Lecture
Quiz, Assignment
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 1 and
2pgs. 1-13, 15-35]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 3 pgs.
38-74]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 4 & 5
pgs. 80-128]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 6 pgs.
131-171]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 7 pgs.
174-205]
Callister, W.D. (2007). Materials
Science and Engineering An
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 2 of 7
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 8 & 9
pgs. 207-303]
create phase diagrams
Week No. 7
Dec. 17 - 21
Week No. 8
Jan. 8, 10
Week No. 9
Jan. 15, 17
Week No.10
Jan. 22, 24
Week No.11
Jan. 28 - 30
Week No.12
Feb. 5 - 7
PRELIM EXAMINATION
To distinguish the
phase transformations
in metals
To understand and be
familiarize with
thermal processing of
metal alloys
To be familiarize with
ceramics and its
structures and
properties
To be familiarize with
applications and
processing of ceramics
To be familiarize with
polymers and its
structures and
characteristics
Phase Transformations In Lecture
Metals, Applications And
Processing Of Metal
Alloys
Quiz, Assignment
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 10 &
11pgs. 311-355, 358-410]
Structures And
Properties Of Ceramics,
Applications And
Processing Of Ceramics
Lecture
Quiz, Assignment
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 12 nad
13 pgs. 414-458, 460-487]
Polymer Structures,
Characteristics,
Applications And
Processing Of Polymers
Lecture
Quiz, Assignment
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 14 pgs.
489-575]
ENGINEERING WEEK
Be familiarize with the
some composite
materials
To create a proper
way of selecting
Composites
Lecture
Corrosion And
Degradation Of Materials
Quiz, Assignment
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 16 & 17
pgs. 577-643]
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 3 of 7
materials for design
purposes
Week No.13
Feb. 11 - 15
Week No.14
Feb. 19 - 22
MIDTERM EXAMINATION
To understand the
electrical and thermal
properties of some
materials
Electrical Properties
Thermal Properties
Lecture
Quiz, Assignment
Week No.15
Feb. 26 - 28
To understand the
magnetic properties
of some materials
Magnetic Properties
Lecture
Quiz, Assignment
Week No.16
March 5, 7
To understand the
optical properties of
some materials
Optical Properties
Lecture
Quiz, Assignment
Week No.17
March 5, 7
To gain knowledge in
material selections
and design
considerations
Materials Selection and
Design
Considerations
Lecture
Quiz, Assignment
Week No.18
March 12, 14
To distinguish the
economic,
environmental and
societal significance of
material science and
engineering
Economic,
Environmental And
Societal Issues In
Materials Science And
Engineering
Lecture
Quiz, Assignment
Week No.19
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 18 & 19
pgs. 665-719]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 20 pgs.
W19-W55]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 21 pgs.
W57-W84]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 22
pgsW86-W130]
Callister, W.D. (2007). Materials
Science and Engineering An
Introduction 7th Edition. New York:
John Wiley and Sons. [Chapter 23 pgs.
W35-W143]
ENDTERM EXAMINATION
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 4 of 7
March 18-22
LIST OF REFERENCES:
1. Callister, W.D. (2007). Materials Science and Engineering An Introduction 7th Edition. New York: John Wiley and Sons.
2. Brown, T., LeMay, H.E., Bursten, B., Murphy, C., Woodward, P. (2009). Chemistry: The Central Science 11th Edition. Singapore: Pearson.
3. McMurry, J. (2008). Organic Chemistry 7e (International Student Edition). Belmont: Cengage Learning.
4. Skoog, D.A., West, D.M., Holler, F.J., Crouch, S.R. (2010). Fundamentals of Analytic Chemistry 8/e. Philippines: Cengage Learning Asia.
GRADING SYSTEM:
The following are the basis in computing the grades for this subject:
I. Basis
A. Highest Grade
- 100
B. Lowest Grade
- 60
C. Cut-off Score:
- 60 %
II. Computation of Term Grade
II-1 Criteria
Exam
- 50%
Quizzes
- 40
Class Participation
- 10
(Assignments, seat works, board works, etc.)
Total
100%
II-2 Formulas:
Let
G
=
grade
WA
=
percentage weighted average
E
=
percentage exam
Q
=
percentage quizzes (minimum of three per term)
CP
=
percentage class participation
A. Computation of WA
WA
=
0.5E + 0.40Q + 0.10CP
B. Passed ( If WA ≥ 60)
G
=
0.625WA + 37.5
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 5 of 7
C. Failed (If WA < 60)
G
=
0.25WA + 60
III. Computation of Final Grade
Prelim
- 30%
Mid-Term - 30
End Term - 40
Total
100%
Classroom Policies:
Attendance. Students are expected to come to class on time. Students absent from lecture are responsible for topics missed. Absence from class may be
excused for illness, family emergency, and activity excused by the dean. Bring a scientific calculator during each meeting. Turn off cell phones while in class. If
an emergency requires their use, arrange with the instructor before class.
Cooperative learning. Students are expected to take responsibility for their own learning. Cooperative work with classmates is encouraged—except during
quizzes and exams! To develop the problem-solving skills and improve class standing, try your best to solve homework problems on your own before getting help
from classmates—do not simply copy their solution.
In class problems. You will be assigned to a problem solving group to work with, and groups will be rotated. This may include group discussion and board
work by group.
Solution format: For homework, each problem statement should be written out (this will make it easier for you to review later). All assumptions must be
clearly stated and sources of data must be indicated. Equations must be written out first before substitution of values. A running commentary on your reasoning
and strategy should accompany your solution. Final answers that do not include the proper units and are not rounded off to the proper number of significant
figures shall be considered incorrect. Neatly staple together all pages of your answer sheets, write your name on top of every page.
Academic honesty. You are expected to adhere to high standards of academic integrity, i.e., avoid cheating on quizzes and exams.
Complaints. Complaints about points given to assignments and exams must be brought to the attention of the instructor within 48 hours after their return. All
points are considered final afterwards. Make it a habit to keep all returned test papers and assignments as proofs in case of complaints about grades later.
Instructor Information
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 6 of 7
Name of Instructor:
Engr. Ma. Kristina P. Borbon, MEECE
Degrees Earned:
BS in Electronics Engineering; Master of Engineering, Major in Electronics and Communications Engineering
Area(s) of Specialization:
Communications, Electronics, Logic Circuits, Data Communications, Discrete Mathematics
Phone/E mail:
09999955405/kristty80@yahoo.com
Consultation Schedule
2:30-5:30 (W), 1:00-2:30 (TTH)/Area Chairs Room
PREPARED BY: ENGR. MA. KRISTINA P. BORBON, MEECE 2012-13 Page 7 of 7