FIZ3401_bahan

Department : School of Ocean Engineering

Course Name:

1 Sains Bahan

(Materials Science)

2 Course Code:
FIZ3401

Name of Academic Staff: Dr. Nora Salina Binti Md Salim &
3 NURUL HAYATI IDRIS DrD. rN. oKrhaaSdiajalihnaHMilmduSnaBliimnti&KDamr. aMruodhidn Sabri Mohd Ghazali

Rationale of the course for this program:

4 This course will introduce students with the science foundation for further materials and engineering-related
studies .

Semester and year of offered
5 Semester , Year

Total of Student Face to Face Non Face to Face/Self JPP
Learning Time

6 K T A L K T A L
K= Lecture T=Tutorial

A=Laboratory 36 4 72 16 127
L=Others

7 Credit Value 3

Prerequisites (if applicable):
8 Not Applicable

Course Objective

9 1. At the end of this course, student will be knowledgeable, skilled in the science of materials and can
resolve problems related to materials science.

Learning Outcome (CLO): PLO Domain
At the end of the course, students should be able to:
PLO1 C2
CLO Description

CLO1 Classify the types of materials into groups according to different characteristics.

CLO2 Describe the phase diagram of a binary system in detail. PLO4 A1
10
PLO1 C4
CLO3 Analyse the principles in the field of solid state physics and engineering.

Transferable skills:
11 (Communication skills)

Teaching and Learning Strategy:

PLO Description Domain Teaching and Learning Activities Assesment Strategy

PLO1 Knowledge C2 Lecture, Tutorial, E-Learning, Test, Assignment, Final
Exam, Quiz,

PLO4 Communication skills A1 Lecture, Tutorial, E-Learning, Demonstration, Assignment,
12 Knowledge
C4 Lecture, Tutorial, E-Learning, Test, Assignment, Final
PLO1 Exam, Quiz,

Synopsis

Classification of types of materials such as metals, ceramics, glasses, polymers and composites. Emphasis is
13 given to phase diagrams of their binary systems, crystallization and microstructures, the phase diagram and

also interphases in materials. The study of imperfections and mechanical properties of materials. The final part
deals with experimental techniques used in materials science.

14 Method of delivery:
Lecture, Tutorial, E-Learning,

Method of Assesment:

Domain Teaching & Learning Assessment & Weightage
Activities

CLO CPA Lecture
Tutorial
15 2 // Presentation
CLO1 1/ / Practical/Lab
CLO2 Demonstration
CLO3 4 // E-Learning
Quiz/Exercise
Test 1
Test 2
Presentation
Project/Case Study
Assigment/Report
Final Exam

/ 5 15 5 20

/ 10
5 20
/5 15

Total Marks 10 15 15 20 40

Overall Total Marks 100%

Course Mapping/Module according to program outcomes:

CLO PEO PEO1 PEO2 PEO3 PEO4
16 CLO1 /

16 CLO2 /
CLO3
/

Course Mapping/ Module according to Learning outcomes of the program :

CLO PLO PLO PLO PLO PLO PLO PLO PLO PLO PLO
17
CLO1 123456789
CLO2
CLO3 /
/

/

Outline of course content/module and total learning time of student for each title:

Description Face to Face Non Face to JPP
KTAL Face/Self 9
Topic 1
Introduction to Types of Materials: KTAL 30
Metal, Ceramics and glass, Polymers, Composite materials
36

Topic 2 20

Phase diagram of binary system
- Crystallization
- Microstructure
- Review Fe-C phase diagram between phases in the material 10

Transformation
- The phase transformation in the solid state

Topic 3

Imperfections
18 - Defects

- Dislocations

Elastic Properties 10 20 30
- Elasticity
- Plasticity 6 12 18
- Dislocation
- Hardening
- Creep

Topic 4

Experimental Techniques
- Microstructure
- Optic and electron microscope
- Nondestructive Testing

Topic 5 4 8 12
3 6 9
Principles of Solid State
- The topics chosen for the uses in the fields of physics and
engineering

Topic 6

Nonelastic
- The infusion of multiple impacts and effects of population
dynamics

Total 36 72 108

Description Face to Face Self Learning
36 72
Lecture (K)

Tutorial (T)

Practical/Lab (K)

Others (L) 4 16

Laboratory Report : Quantity
Question
Total of Student Exercise : Words
Learning Time Word
Assigment/Report : 500 Minutes 3
Project/Case Study : 5
Total 1
Presentation : JPP 0.1 3
1 3
Quiz Credit 1 6
2 88
Test 40

Final Exam 127
3

Reference
1. Callister, W.D. and Rethwisch, D.G. (2013) Materials Science and Engineering: An Introduction 9th
Edition, Wiley.
2. Shackelford, J.F. (2014) Introduction to Materials Science for Engineers (8th Edition), Pearson

3. Richard J. D. Tilley, R.T.J., (2013) Understanding Solids: The Science of Materials 2nd Edition, Wiley
19

4. William D. Callister, W.D. and Rethwisch, D.G (2014) Fundamentals of Materials Science and
Engineering: An Integrated Approach 4th Edition, Wiley.

5. Beer, F.P., Johnston Jr., E.R., DeWolf, J.T and Mazurek, D.F (2014) Mechanics of Materials, 7th
Edition, McGraw-Hill Education.

Additional Infomation

The face to face teaching contact hour per-week should not less than 3 hours a week throughout 14 weeks of
20 teaching and learning session.