| Course Description |
|
| Course Name |
: |
Computer Integrated Product Development |
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| Course Code |
: |
ENM425 |
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| Course Type |
: |
Compulsory |
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| Level of Course |
: |
First Cycle |
|
| Year of Study |
: |
4 |
|
| Course Semester |
: |
Fall (16 Weeks) |
|
| ECTS |
: |
4 |
|
| Name of Lecturer(s) |
: |
Instructor İRFAN MACİT
|
|
| Learning Outcomes of the Course |
: |
This is a picture of the machine manufacturing derBu plotted course, students learn how to send.
Learn how to produce images in computer integrated manufacturing.
Learn how to design manufacturing drawings
Learn the basic principles of design and analysis.
Learn to use the principles of design, computer integrated manufacturing buildings.
Get information about a computer-controlled machine tools.
Technology of manufacturing technology allows the computer.
|
|
| Mode of Delivery |
: |
Face-to-Face |
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| Prerequisites and Co-Prerequisites |
: |
None |
|
| Recommended Optional Programme Components |
: |
None |
|
| Aim(s) of Course |
: |
In this course sudents learn to design and create manufacture pictures of integrated parts with computer . Design issues are based on the technical drawings of machine parts to be produced on the basis of image data based on the principle. |
|
| Course Contents |
: |
The principles of computer integrated overtones, part design, design principles and procedures, parts processing routes, production drawings analysis, computer-machine communications, drawn pictures of the machine manufacturing, machine parts drawn submission contains methods for computer-controlled machine tools. |
|
| Language of Instruction |
: |
Turkish |
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| Work Place |
: |
Classroom and Laboratuar. |
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|
Course Outline /Schedule (Weekly) Planned Learning Activities |
| Week | Subject | Student's Preliminary Work | Learning Activities and Teaching Methods |
|
1 |
Design and basic design information. |
none |
Lecture. |
|
2 |
The importance of design in manufacturing. |
Reading lecture notes. |
Lecture. |
|
3 |
Introduction to computer aided design. |
Getting information about the installation of computer programs. |
Lecture and presentation computer software. |
|
4 |
Basic principles of computer-aided design. |
The installation of programs on computers. |
Lecture and presentation computer software. |
|
5 |
Basic principles of computer-aided design (cont.). |
The installation of programs on computers. |
Lecture and presentation computer software. |
|
6 |
Introduction to the design of machine parts. |
none |
Lecture and presentation animation on computer. |
|
7 |
Three-dimensional design and the design of machine parts. |
Videos on the monitoring of three-dimensional design. |
Lecture and presentation animation on computer. |
|
8 |
Midterm Exam |
none |
Appication Exam. |
|
9 |
The implementation of the basic design methods, computer program. |
none |
Application development in Computer |
|
10 |
Design of machine elements with the aided of a computer - I |
Videos on the monitoring of three-dimensional design. |
Application development in Computer |
|
11 |
Design of machine elements with the aided of a computer - II |
Videos on the monitoring of three-dimensional design. |
Application development in Computer |
|
12 |
Design of machine elements with the aided of a computer - III |
Videos on the monitoring of three-dimensional design. |
Application development in Computer |
|
13 |
Design of machine elements with the aided of a computer - IV |
Videos on the monitoring of three-dimensional design. |
Application development in Computer |
|
14 |
Mounting elements with the help of computer modeling and analysis. |
Installation videos on the monitoring of the design elements. |
Application development in Computer |
|
15 |
Machines for the manufacture of computers and data exchange methods. |
none |
Computer application. |
|
16/17 |
Final Exam. |
none |
Application exam. |
|
|
| Contribution of the Course to Key Learning Outcomes |
| # | Key Learning Outcome | Contribution* |
|
1 |
Can collect and analyze data required for industrial engineering problems ,develops and evaluates alternative solutions. |
3 |
|
2 |
Has sufficient background on topics related to mathematics, physical sciences and industrial engineering. |
4 |
|
3 |
Gains ability to use the acquired theoretical knowledge on basic sciences and industrial engineering for describing, formulating and solving an industrial engineering problem, and to choose appropriate analytical and modeling methods. |
5 |
|
4 |
Gains ability to analyze a service and/or manufacturing system or a process and describes, formulates and solves its problems . |
5 |
|
5 |
Gains ability to choose and apply methods and tools for industrial engineering applications. |
5 |
|
6 |
Can access information and to search/use databases and other sources for information gathering. |
2 |
|
7 |
Works efficiently and takes responsibility both individually and as a member of a multi-disciplinary team. |
2 |
|
8 |
Appreciates life time learning; follows scientific and technological developments and renews himself/herself continuously. |
4 |
|
9 |
Can use computer software in industrial engineering along with information and communication technologies. |
5 |
|
10 |
Can use oral and written communication efficiently. |
1 |
|
11 |
Has a conscious understanding of professional and ethical responsibilities. |
5 |
|
12 |
Uses English skills to follow developments in industrial engineering and to communicate with people in his/her profession. |
0 |
|
13 |
Has a necessary consciousness on issues related to job safety and health, legal aspects of environment and engineering practice. |
2 |
|
14 |
Becomes competent on matters related to project management, entrepreneurship, innovation and has knowledge about current matters in industrial engineering. |
1 |
| * Contribution levels are between 0 (not) and 5 (maximum). |
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