SKMM1113 L1 20172018 2.docx

COURSE OUTLINE

FACULTY OF

MECHANICAL ENGINEERING

Page : of 6

SKMM 1113

MECHANICS OF SOLIDS 1

Revision

Date of issue

Last Amendment

Edition

: 11th February 2018

: 10th February 2018

PRE-REQUISITE		:	SKMM1203 (Statics)
EQUIVALENCE		:
LECTURE HOURS		:	3 Hours Lecture 1 Hour Tutorial
Lecturers		E-Mail		Room No.	Phone No.
1	PM Dr Mohamed Ruslan Abdullah	ruslan@mail.fkm.utm.my		C23-218	07-5534706
2	Mr Khairul Anwar Hj Hanafiah	khairul@mail.fkm.utm.my		C23-425	07-5534686
3	Dr Mohd Shuisma Bin Mohd Ismail	shuisma@mailfkm.utm.my		C23-219	07-5534652
4	Dr Hishamuddin Alham	ahisham2001@yahoo.com		C24-315	07-5534708
5	Dr Haris Ahmad Israr Ahmad	haris@mail.fkm.utm.my		C25-319	07-5533333
6	Dr Wong King Jye	kjwong@mail.fkm.utm.my		C23-322	07-5534637
7	Mr Ahmad Zafri bin Zainudin	zafri@mail.fkm.utm.my		C23-230	07-5534701
8	Dr Mohd Ayub Sulong	mayub@mail.fkm.utm.my		C23-424	07-5554892
9	Dr Jamaludin Mohd Taib	jamalt@mail.fkm.utm.my		C23–225	07-5534654
10	Dr Jamaludin Mohd Taib	jamalt@mail.fkm.utm.my		C23–225	07-5534654
11	PM Dr Yazid Yahya	yazid@fkm.utm.my		C25-412	07-5534752

SYNOPSIS

The course provides students with the knowledge to determine the strength and stiffness of structures being used. The structures that will be studied in this course are bars, pins, bolts, shafts and beams and the types of applied loadings are axial forces, deformations due to the change in temperature, torsional loads, transverse loads and combination of these loads. At the end of the course, students should be able to determine the mechanical properties of the materials with respect to their strength and stiffness. Students should be able to calculate stresses, strains and deformations in structures due to various types of loading conditions. In addition, they should be able to solve problems related to statically determinate and indeterminate structures.

PREPARED BY :

CERTIFIED BY :

Name

Signature

Date

Dr Wong King Jye (Panel Head)

11 February 2018

Name

Signature

Date

PM Dr Yazid Yahya

11 February 2018

COURSE LEARNING OUTCOMES

By the end of the course, students should be able to :

No.	Course Learning Outcomes	Programme Learning Outcome(s) Addressed	Learning Taxonomy & Generic Skill Assessed	Assessment Methods
1.	Identify and analyze internal and external loads and reactions of deformable solids.	PO1, PO2, PO3	C4	T, Q, HW, F
2.	Analyze stresses, strains and deformations in statically determinate structures due to external axial, transverse loads, torsion, bending moment, differential temperature and combined loadings in relation to material properties	PO1,PO2, PO3	C4 A3	T, Q, HW, F
3.	Analyze stresses, strains and deformations in statically indeterminate structures due to external axial, transverse loads, torsion, bending moment, differential temperature and combined loadings in relation to material properties.	PO1,PO2,PO3	C4 A3	T, Q, HW, F
4.	Apply the relationship between theory and practice.	PO1,PO2, PO3, PO9, PO10, PO11	C4 A3 P4	T, F, PR

Note :

(T – Test ; PR – Project ; Q – Quiz; HW – Homework ; Pr – Presentation; F – Final Exam)

STUDENT LEARNING TIME :

No.	Teaching and Learning Activities	Student Learning Time (hours)
1.	Face to Face Lectures Tutorial SCL Activities	36 12 6
2.	Independent Study Non-face to face learning Revision Preparation for Assessment	59
3.	Formal Assessment Continuous Assessment Final Exam	4 3
Total		120

TEACHING METHODOLOGY

Lectures
Tutorial

WEEKLY SCHEDULE

Week

Lecture (hrs)

Topic / Content

Application of Statics.

Introduction to subject- FBD, Equilibrium Equation, Internal and external loads.

STRESS AND STRAIN.

Normal stress and strain. Simple tensile test. Stress-strain diagram. Features of diagram. Hooke’s Law. Elasticity and plasticity.

Shear stress and strain.

Allowable stress and allowable load.

Axially loaded member.

Statically indeterminate structures.

Thermal stresses. Stress Concentration

TORSION.

Introduction to torsion of circular bars. Shear stress and angle of twist.

Multiple torsional loadings

Mechanical properties due to torsion.

Relationship between Modulus of Elasticity, Poisson’s ratio and Modulus of Rigidity.

Power transmission of circular shaft.

Transfer of torque using gears

Statically indeterminate of torsional members.

SHEAR FORCE AND BENDING MOMENT.

Introduction.

Types of beams, Loadings and supports.

Relation between distributed load, shear force, and bending moment.

MID SEMESTER BREAK

Development of shear force and bending moment equations.

Drawing of shear force and bending moment diagrams.

BENDING STRESS. Introduction to bending of beams.

Simple bending theory.

Second moment of area. Parallel axes theorem.

Bending of composite beams.

Calculation of bending stress.

SHEAR STRESS IN BEAMS. Introduction.

Shear Stress due to transverse loadings .

BEAM DEFLECTION. Introduction.

Elastic curve equation.

Slope and deflection equations by integration method.

Sign convention. Singularity function – Macaulay’s method.

Statically indeterminate beams.

Extended and compensation loads.

COMBINED LOADINGS. Introduction

Stress elements for axially loaded bar, shaft in torsion and beam in bending.

Complex stresses due to combined loadings.

REVISION WEEK AND FINAL EXAMINATION

17-18

FINAL EXAMINATION

REFERENCES

Hibbeler, R.C., 2003, Mechanics of Materials (SI Edition), Prentice Hall.

Gere, J.M. and Timoshenko, S.P., 1997, Mekanik Bahan (Edisi Ketiga), Penerbit Universiti Teknologi Malaysia.

Craig, R.R., 1996, Mechanics of Materials, John Wiley & Sons.

Nash, W.A., 1992, Theory and Problems of Statics and Mechanics of Materials, McGraw-Hill

GRADING

No.	Assessment	Number	% each	% total	Dates
1.	Test 1	1	25	25	Week 7 Date: 29 March 2018 Time: 9.00 -10.30pm Venue: L50 (DK,1,2,3) & N24 (DK 8,9)
2.	Test 2	1	25	25	Week 13 Date: 6 May 2018 Time: 9.00 -10.30pm Venue: L50 (DK,1,2,3) & N24 (DK 8,9)
3.	Assignment, quiz	1	5	5
4.	Case study (Group)	1	5	5
5.	Final Exam	1	40	40
Overall Total				100

ATTENDANCE

The student should adhere to the rules of attendance as stated in the University Academic Regulation :-

Student must attend not less than 80% of lecture hours as required for the subject.
The student will be prohibited from attending any lecture and assessment activities upon failure to comply the above requirement. Zero mark will be given to the subject.

F/Kurikulum/Folder Rangka Kuliah/10 June 2008