L1 SKMV 4123 VEHICLE STRUCTURE EAC v3 arahim/L1 SKMV 4123 VEHICLE · F/Kurikulum/Folder Rangka Kuliah/10…
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<p>COURSE OUTLINE </p>
<p>F/Kurikulum/Folder Rangka Kuliah/10 June 2008 </p>
<p>FACULTY OF MECHANICAL ENGINEERING </p>
<p>Page : 1 of 5 </p>
<p>VEHICLE STRUCTURES (SKMV 4123) </p>
<p>Session Semester </p>
<p>: 2016/2017 : 1 </p>
<p>PRE-REQUISITE : SKMV 3233, SKMM 3523 </p>
<p>EQUIVALENCE : - </p>
<p>TOTAL LECTURE HOURS : 42 </p>
<p>Lecturers E-Mail Room No. Phone No. </p>
<p>1. Dr Nurulakmar Abu Husain </p>
<p>nurul@fkm.utm.my C23-421 34665 </p>
<p>2. Dr Abd Rahim Abu Bakar arahim@fkm.utm.my C24-312 34572 </p>
<p>Synopsis : </p>
<p> This course is designed to expose students to the design of the modern passenger car structure. It will </p>
<p>emphasize on the general architecture of the vehicle structure, design specifications for the body </p>
<p>structure, methodology for evaluation of body structure performance and manufacturing/assembly of </p>
<p>body panels. </p>
<p>PREPARED BY : </p>
<p>CERTIFIED BY : </p>
<p>Name </p>
<p>Signature Date </p>
<p>: </p>
<p>: </p>
<p>: </p>
<p>Dr. Abd Rahim Abu Bakar </p>
<p>4th September 2016 </p>
<p>Name </p>
<p>Signature Date </p>
<p>: </p>
<p>: </p>
<p>: </p>
<p>Head of Department </p>
<p>COURSE OUTLINE </p>
<p>F/Kurikulum/Folder Rangka Kuliah/10 June 2008 </p>
<p>FACULTY OF MECHANICAL ENGINEERING </p>
<p>Page : 2 of 5 </p>
<p>VEHICLE STRUCTURES (SKMV 4123) </p>
<p>Session Semester </p>
<p>: 2016/2017 : 1 </p>
<p>COURSE LEARNING OUTCOMES </p>
<p>By the end of the course, students should be able to : </p>
<p>No. Course Learning Outcomes Programme </p>
<p>Learning Outcome(s) Addressed </p>
<p>Learning </p>
<p>Taxonomies & </p>
<p> Generic Skills Assessed </p>
<p>Assessment Methods </p>
<p>1. </p>
<p>Describe body structure and its sub-systems in relation to design </p>
<p>and functional aspects. </p>
<p>PO1 </p>
<p>C2 T, A, F </p>
<p>2 </p>
<p> Identify design specifications of </p>
<p>body structure and its sub-systems. </p>
<p>PO2 C4 T, A, F </p>
<p>3. </p>
<p>Evaluate vehicle structural performance through appropriate </p>
<p>analysis to meet standard design </p>
<p>specifications using finite element </p>
<p>software package </p>
<p>PO2, PO3, PO5 C6 T, A, F </p>
<p>4. </p>
<p> Describe the connection/joint </p>
<p>methods involved in assembling a </p>
<p>body structure </p>
<p>PO1 C2 T, A, F </p>
<p>5 </p>
<p> Outline the process involved in </p>
<p>assembling a body structure </p>
<p>PO1 C2 T, A, F, PR </p>
<p>6 </p>
<p> Demonstrate the ability for problem solving through critical </p>
<p>thinking, seek ideas and alternative </p>
<p>solutions for vehicle structure </p>
<p> PO2,PO3 </p>
<p>C3, P4, A2 </p>
<p>[CTPS1-CTPS3] </p>
<p>Observation </p>
<p>(Q&A </p>
<p>Session) </p>
<p> Note : (T Test ; PR Project ; Q Quiz; HW Homework ; A Assignment; Pr Presentation; F Final Exam, PA-Peer Assessment) </p>
<p>COURSE OUTLINE </p>
<p>F/Kurikulum/Folder Rangka Kuliah/10 June 2008 </p>
<p>FACULTY OF MECHANICAL ENGINEERING </p>
<p>Page : 3 of 5 </p>
<p>VEHICLE STRUCTURES (SKMV 4123) </p>
<p>Session Semester </p>
<p>: 2016/2017 : 1 </p>
<p>STUDENT LEARNING TIME </p>
<p>No. Teaching and Learning Activities Student Learning Time </p>
<p>(hours) </p>
<p>Teaching and Learning Activities Student Learning Time </p>
<p>(hours) </p>
<p>1. Face-to-Face Learning </p>
<p>a. Lecturer-Centered Learning </p>
<p>i. Lecture 36 </p>
<p>b. Student-Centered Learning (SCL) </p>
<p>i. Laboratory/Tutorial </p>
<p>ii. Student-centered learning activities Active Learning, Project Based Learning </p>
<p>0 </p>
<p>6 </p>
<p>2. Self-Directed Learning </p>
<p>a. Non-face-to-face learning or student-centered learning (SCL) such as manual, assignment, module, e-Learning, etc. </p>
<p>16 </p>
<p>b. Revision 38 </p>
<p>c. Assessment Preparations 18 </p>
<p>3. Formal Assessment </p>
<p>a. Continuous Assessment 3 </p>
<p>b. Final Exam 3 </p>
<p>Total 120/40=3.0 </p>
<p> TEACHING METHODOLOGY </p>
<p>Lectures and active learning </p>
<p>COURSE OUTLINE </p>
<p>F/Kurikulum/Folder Rangka Kuliah/10 June 2008 </p>
<p>FACULTY OF MECHANICAL ENGINEERING </p>
<p>Page : 4 of 5 </p>
<p>VEHICLE STRUCTURES (SKMV 4123) </p>
<p>Session Semester </p>
<p>: 2016/2017 : 1 </p>
<p>WEEKLY SCHEDULE </p>
<p>Week Lecture Topic / Content </p>
<p>1-2 </p>
<p>1-6 </p>
<p>Description of Body Structures and All The Sub-Systems </p>
<p>Front End </p>
<p>Under Body </p>
<p>Body </p>
<p>Closures </p>
<p>Interior </p>
<p>3-7 </p>
<p>7-22 </p>
<p>Functional Aspects of Body Structures and Design Specification </p>
<p>Package </p>
<p>Safety </p>
<p>Noise,Vibration and Harsness(NVH) </p>
<p>Durability </p>
<p>Other system mounting </p>
<p>8 </p>
<p>MID SEMESTER BREAK </p>
<p>9-14 </p>
<p>23-39 </p>
<p>Methods to Analyse Structure Performance FEM analysis of Body Structures </p>
<p>15 </p>
<p>40-42 </p>
<p> Joining Method and Assembly Process </p>
<p>16 REVISION WEEK AND FINAL EXAMINATION </p>
<p>REFERENCES </p>
<p> 1. Donald E Malen, 2011, Fundamental of Automobile body structure design, SAE </p>
<p>2. International. </p>
<p>3. Jason, C. B, John R. A. and Stan, T. S. 2002. Motor Vehicle Structure, Oxford. </p>
<p>Butterworth-Heinemann </p>
<p>4. Pawlowski, J. Vehicle Body Engineering, business Book Limited, London, 1969 </p>
<p>5. 'An Introduction to Modern Vehicle Design', Ed. J Happian-Smith, Butterworth-</p>
<p>Heinemann, 2001 </p>
<p>COURSE OUTLINE </p>
<p>F/Kurikulum/Folder Rangka Kuliah/10 June 2008 </p>
<p>FACULTY OF MECHANICAL ENGINEERING </p>
<p>Page : 5 of 5 </p>
<p>VEHICLE STRUCTURES (SKMV 4123) </p>
<p>Session Semester </p>
<p>: 2016/2017 : 1 </p>
<p>GRADING </p>
<p>No. Assessment Number % each % total </p>
<p>1. Test 2 20 40 </p>
<p>2. Project & Assignment 1 20 20 </p>
<p>3. Final Exam 1 40 40 </p>
<p>Overall Total 100 </p>
<p>ATTENDANCE </p>
<p>The student should adhere to the rules of attendance as stated in the University Academic Regulation :- </p>
<p>1. Student must attend not less than 80% of lecture hours as required for the subject. </p>
<p>2. The student will be prohibited from attending any lecture and assessment activities upon failure to </p>
<p>comply the above requirement. Zero mark will be given to the subject. </p>
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