Upload
syamim-bakri
View
24
Download
8
Embed Size (px)
DESCRIPTION
sharing
Citation preview
Lampiran A
RPP-04 / Prosedur Perlaksanaan Kuliah Edisi : 3 / No. Semakan : 0
PERANCANGAN KULIAH LECTURE PLAN
MAKLUMAT KURSUS (COURSE INFORMATION)
SEMESTER / SESI (SEMESTER / SESSION) : SEMESTER II / 2015/2016
KOD KURSUS (COURSE CODE) : BFS 40103
NAMA KURSUS (COURSE NAME) : ADVANCED
STRUCTURE ANALYSIS
BEBAN AKADEMIK PELAJAR (COURSE ACADEMIC LOAD) :
Category of Activities Activities Total Hours /
Sem
Guided Learning
Lecture 39
Tutorial / Practical 0
Student Centered Learning Activities 3
Self Learning Activities
Preparation for Assignments / Projects 20
Independent Study / Revisions 46
Preparation for Assessment 6
Formal Assessments Continuous Assessments 3
Take Final Examination 3
Total SLT Hours 120
Matapelajaran Pra-syarat (Pre requisite Subject)
: BFC 20903 (Mechanics of Material) BFC 21403 (Structural Analysis)
Nama Pensyarah (Lecture’s name) : Koh Heng Boon – S1 & S2 (Coordinator)
Disediakan oleh (Prepared by) : Tandatangan (Signature) : Nama (Name) : KOH HENG BOON Tarikh (Date) :7 FEBRUARY 2016
Disahkan oleh (Approved by) :
Tandatangan (Signature) : Nama (Name) : DR. AHMAD ZURISMAN BIN
MOHD ALI Tarikh (Date) : 10 FEBRUARY 2016
UNIVERSITI TUN HUSSEIN ONN MALAYSIA
FAKULTI KEJURUTERAAN AWAM DAN ALAM SEKITAR
Lampiran A
RPP-04 / Prosedur Perlaksanaan Kuliah Edisi : 3 / No. Semakan : 0
MATLAMAT (GOALS) :
To provide a thorough understanding of the concepts of advanced structure analysis with special emphasis on matrix/finite element method.
SINOPSIS (SYNOPSIS) :
Advanced Structural Analysis covers the discussion of the various aspects of modern structural analysis, ranging from elementary continuum mechanics theory to advanced analysis using the matrix method. The text is geared towards practical engineering problems and attempts to cover essential analysis considerations and techniques present in the daily work of the experienced professional. Scope of the study includes analysis on indeterminate structure, introduction to finite element, elastic and inelastic stability of columns, yield line theory and plastic theory. HASIL PEMBELAJARAN (LEARNING OUTCOMES) :
Upon completion of this course, students will be able to:
1. Integrate the knowledge of structural analysis in solving problems in advanced structure analysis while employing new methods. [PLO1, C5]
2. Organize effectively the solutions of current structural engineering problems by integrating the structural knowledge and recent issues. [PLO2, P4]
3. Demonstrate the ability to interpret the current structural engineering problems. [PL05, A5]
ISI KANDUNGAN (CONTENT) :
MINGGU (WEEK)
KANDUNGAN (CONTENT)
PENTAKSIRAN (ASSESSMENT)
1 - 3
1.0 FORCE METHOD
1.1 Stability and Determinacy 1.2 Analysis of Indeterminate Structure Using Force
Method 1.3 Force-displacement relationship 1.4 Analysis of Indeterminate Beam Analysis 1.5 Analysis of Indeterminate Frame Analysis
Test 1
Assignment 1 Final exam
4 - 6
2.0 YIELD LINE THEORY
2.1 Formation and prediction of yield line pattern 2.2 Isotropic and orthotropic slab
2.2.1 Ultimate moment of resistance 2.2.2 Boundary conditions 2.2.3 Virtual work method
2.3 Skew slab 2.4 Effect of line load 2.5 Equilibrium method 2.6 Nodal force 2.7 Non-symmetry slab using equilibrium method
Quiz 1 Test 1
Project Final exam
Lampiran A
RPP-04 / Prosedur Perlaksanaan Kuliah Edisi : 3 / No. Semakan : 0
MINGGU (WEEK)
KANDUNGAN (CONTENT)
PENTAKSIRAN (ASSESSMENT)
7 - 10
3.0 DIRECT STIFFNESS METHOD
3.1 Derivation of stiffness matrix for spring 2.2 Assemblage of spring 3.3 Assembling global stiffness matrices using direct
stiffness method 3.4 Boundary conditions 3.5 Linear analysis 3.6 One and Two dimensional element 3.7 Analysis of Indeterminate Truss Analysis
Quiz 2 Test 2
Assignment 1 Final exam
8
MID-TERM BREAK
11 - 12
4.0 ELASTIC INSTABILITY OF COLUMNS
4.1 Derivation of Euler Equation 4.2 Column Buckling 4.3 Deflection 4.4 Euler Formula for Columns with General End
Conditions 4.5 Effect of Axial and Flexural Force on Buckling 4.6 Brace and Unbraced Column
Project Final exam
13 - 15
5.0 PLASTIC ANALYSIS
5.1 Plastic Failure 5.2 Multy-bay Frame 5.3 Method of Combined Mechanisms 5.4 Bending Moments in Collapse Mechanism 5.5 Plastic Moments
Test 2 Final exam
TUGASAN / PROJEK (ASSIGNMENT / PROJECT) :
1. Students in a group are required to analyse a floor system by using suitable and available structural analysis software such as Staad Pro, SAP 2000 and LUSAS.
2. Based on the output obtained from the structural analysis software, the students are required to compare/verify the results with manual calculation.
3. Students are required to prepare a detail technical report for the above tasks.
Lampiran A
RPP-04 / Prosedur Perlaksanaan Kuliah Edisi : 3 / No. Semakan : 0
PENILAIAN (ASSESSMENT) :
1. Quiz : 5 % 2. Assignment : 5 % 3. Test : 20 % 4. Project : 20 % 5. Final Examination : 50 %
Total : 100 %
RUJUKAN (REFERENCES) :
1. Johnson, D (2000), Advanced Strcutural Mechanics 2nd Edition, Thomas Telford. TA645 .J63 2000
2. Boresi, A. P, Schimdt, R.J and Sidebottom, O.M (2003), Advanced Mechanics of Material, Sixth Edition, John Wiley & Sons. TA405 .B67
3. Chen W. F and Han D. J (2007), Plasticity for Structural Engineers, Springer Verlag New York TA418.14 .C33
4. Menon, Devdas (2009), Advanced Structural Analysis, Alpha Science International , TA645 .M464
5. Zienkiewicz, O. C. (2014), The Finite Element Method for Solid And Structural Mechanics 7th Edition, XX(152856.1)
KEHADIRAN / PERATURAN SEMASA KULIAH (LECTURE ATTENDANCE / REGULATION)
(1) Pelajar mesti hadir tidak kurang dari 80% masa pertemuan yang ditentukan bagi sesuatu mata pelajaran termasuk mata pelajaran Hadir Wajib (HW) dan mata pelajaran Hadir Sahaja (HS). Students must attend lectures not less than 80% of the contact hours for every subject including Compulsory Attendance Subjects (Hadir Wajib – HW) and Attendance Only Subjects (Hadir Sahaja – HS).
(2) Pelajar yang tidak memenuhi perkara (1) di atas tidak dibenarkan menghadiri kuliah dan
menduduki sebarang bentuk penilaian selanjutnya. Markah sifar (0) akan diberikan kepada pelajar yang gagal memenuhi perkara (1). Manakala untuk mata pelajaran Hadir Wajib (HW), pelajar yang gagal memenuhi perkara (1) akan diberi Hadir Gagal (HG). Students who do not fulfill (1) will not be allowed to attend further lectures and sit for any further examination. Zero mark (0) will be given to students who fail to comply with (1). While for Compulsory Attendance Subjects (Hadir Wajib – HW), those who fail to comply with (1) will be given Failure Attendance (Hadir Gagal – HG).
(3) Pelajar perlu mengikut dan patuh kepada peraturan berpakaian yang berkuatkuasa dan menjaga disiplin diri masing-masing untuk mengelakkan dari tindakan tatatertib diambil terhadap pelajar. Students must obey all rules and regulations of the university and must discipline themselves in order to avoid any disciplinary actions against them.
(4) Pelajar perlu mematuhi peraturan keselamatan semasa pengajaran dan pembelajaran. Student must obey safety regulations during learning and teaching process