Course File

Computer Aided Engineering and Design
(AE 103) Course Details
Course
Name
Course Term
Code
Computer
Aided
Engineering
and Design
AE 103 Autumn
Lecture Application Lab Credit ECTS
Hours
Hours
Hours
1
4
0
3
4
Pre-requisite
Course(s)
Course Language
English
Course Type
Compulsory Departmental Courses
Course Level
Bachelor
Mode of Delivery
Face to Face
Learning and
Teaching
Strategies
Lecture, Demonstration, Discussion, Drill and
Practice, Observation Case Study, Problem Solving,
Team/Group, Brain Storming, Project
Design/Management
Course Coordinator • Prof. Dr. Demir Bayka
Course Lecturer(s)
• Instructor İlter İmran Bodur
• Instructor Uluç Yamalı
Course Assistants
Course Objectives
The objective is to be acquainted with computer
aided engineering tools and to learn computer
aided design.
Course Learning
Outcomes
The students who succeeded in this course;
Course Content
Introduction to Solidworks software with solid
modeling and technical drawing applications. 1. 2D
sketching commands and practices 2. 2D
sketching practices 3. 3D solid modelling
commands 4. Screw, gear and cam drawings (cap
screw, straight/helix gear wheels, crankshaft) 5.
Assembly drawing 6. Wheel rim 7. Suspension
system assembly 8. Ball joint 9. 3D sketching,
piping layout 10. Technical drawing, orthogonal
views 11. Surface modelling 12. Sheet metal
forming 13. Weldments 14. Mold tools
• Basic aspects of engineering
• Fundamental principles and rules of engineering
• Understanding the role of an engineer in society
• Design phylosophy of engineering
• Practising computer aided engineering with
various software tools
• Learning to use a computer aided design
program
Weekly Subjects and Releated Preparation Studies
Week Subjects
Preparation
1
Introduction to the engineering
method and application examples.
Introduction to the Solidworks
solid modelling program, 2D
sketch drawing, extrusion
technique using a 2D sketch with
an application example
2
2D sketching with Solidworks,
introduction to assemblies with
an application example.
3
3D sketching with Solidworks with
an application example.
4
Technical drawing techniques
from solid models using
Solidworks with an application
example.
5
Solid modelleng by revolving
sketches with Solidworks, filleting,
trimming techniques, assembling
of parts, assembly technical
drawings with an application
example.
6
Solid modelling by revolving
sketches with Solidworks,
composite modelleing, pattern
features, trimming features,
filleting on solid models,
modification techniques on solid
models, solid model visualizaton
techniques with an application
example on a automobile wheel
rim.
7
Design intents with Solidworks,
design integration, assembly of
parts, assembly of
sub-assemblies with an
application example on the
suspension system of an
automobile.
8
Block procedures with Solidworks,
designing movable parts within
assemblies and imposing
constraints with an application
example on the ball joints of
wheel connections.
9
Sketch dimensioning with
Solidworks, 3D sketching, 3D
piping design and layout with an
application example on a grill
frame.
10
Solidworks paket programı ile
teknik resim ve ortoganal
görüntülerin oluşturulması,
otomobilin komple tekerlek ve
süspansiyon sistemleri üzerinde
uygulama örneği
11
Surface modelling with
Solidworks with an application
example on the frame cover of a
race car.
12
Metal sheet modelling using
Solidworks with an application
example on the fuel tank of a
race car.
13
Weldments using Solidworks with
an application example on the
frame of a race car.
14
Introduction to mold design
techniques using Solidworks.
Sources
Course
Book:
1. 1. Ders notları (elektronik olarak indirilebilen pdf formatlı
dosyalar)
2. 2. Haftalık datashow sunumlar ve elektronik olarak
indirilebilen powerpoint ile hazırlanmış dosyalar
3. 3. Solidworks firması tarafından hazırlanan ve elektronik
olarak indirilebilen pdf formatlı dosyalar.
Other
Sources:
1. 1. Tasarıma yardımcı olacak resimler ve örnek tasarımlar
2. 2. Solidworks programı kullanılarak hazırlanan videolar
Evaluation System
Requirements
Attendance/Participation
Number
Percentage
of Grade
14
10
Laboratory
-
-
Application
-
-
Field Work
-
-
Special Course Internship
-
-
Quizzes/Studio Critics
-
-
Homework Assignments
6
40
Presentation
-
-
Project
-
-
Seminar
-
-
Midterms Exams/Midterms Jury
1
20
Final Exam/Final Jury
1
30
Total
22
100
Percentage of Semester Work
70
Percentage of Final Work
30
Total
100
Course Category
Core Courses
Major Area Courses
Supportive Courses
Media and
Managment Skills
Courses
Transferable Skill
Courses
The Relation Between Course Learning Competencies and
Program Qualifications
# Program Qualifications / Competencies
Level of
Contribution
1
1 Ability to know and apply basic concepts of
mathematics and physics.
2
3
4
5
2 Ability to know and apply basic electricity and
electronic circuits concepts theoretically and
practically.
3 Ability to know computer structure, its data buses,
and analog/ digital instruments of aircraft
thoroughly.
4 Ability to know materials and hardware of aircraft
and use this knowledge in maintenance.
5 Ability to install, troubleshoot, remove and replace,
and test the full spectrum of avionics equipment.
6 Ability to know and apply the standarts of
maintenance, repair, and overhaul of aircraft
electrical and electronic systems and components .
7 Ability to use the techniques, skills, and modern
maintenance tools necessary for avionic
maintenance practice.
8 Ability to work on multidisciplinary teams and have
a skill of individual working.
9 Ability to communicate effectively in both English
and Turkish in oral and written forms.
10 Recognition of the need for, and an ability to
engage in life-long learning; an ability to use
information-seeking tools and to follow the
improvements in science and technology.
11 An understanding of professional and ethical
responsibility.
ECTS/Workload Table
Activities
Number
Duration
(Hours)
Total
Workload
Course Hours (Including
Exam Week: 16 x Total
Hours)
16
1
16
16
1
16
6
3
18
Prepration of Midterm
Exams/Midterm Jury
1
3
3
Prepration of Final
Exams/Final Jury
1
4
4
Laboratory
Application
Special Course Internship
Field Work
Study Hours Out of Class
Presentation/Seminar
Prepration
Project
Homework Assignments
Quizzes/Studio Critics
Total Workload
57