Self-routing autonomous robots by IUE engineers
An autonomous robot that can re-route using artificial intelligence, when it encounters an obstacle, has been developed with the project ...
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Department of Mechatronics Engineering
ME 204 | Course Introduction and Application Information
| Course Name |
Manufacturing Technologies
|
|
Code
|
Semester
|
Theory
(hour/week) |
Application/Lab
(hour/week) |
Local Credits
|
ECTS
|
|
ME 204
|
Fall/Spring
|
2
|
2
|
3
|
6
|
| Prerequisites |
None
|
|||||
| Course Language |
English
|
|||||
| Course Type |
Elective
|
|||||
| Course Level |
First Cycle
|
|||||
| Mode of Delivery | - | |||||
| Teaching Methods and Techniques of the Course | Problem SolvingApplication: Experiment / Laboratory / WorkshopLecture / Presentation | |||||
| National Occupation Classification | - | |||||
| Course Coordinator | ||||||
| Course Lecturer(s) | ||||||
| Assistant(s) | - | |||||
| Course Objectives | This course aims to introduce students basic manufacturing technologies, differences between various production methods, basic concepts of economic production and basic calculations in production processes. | |||||||||||||||||||||||||||||||||||||||||||||||||||||
| Learning Outcomes |
|
|||||||||||||||||||||||||||||||||||||||||||||||||||||
| Course Description | This course covers mechanical properties of metals, powder metallurgy and casting, metal forming processes, metal cutting, non-traditional machining processes, welding, brazing and automation subjects. | |||||||||||||||||||||||||||||||||||||||||||||||||||||
|
|
Core Courses | |
| Major Area Courses | ||
| Supportive Courses | ||
| Media and Management Skills Courses | ||
| Transferable Skill Courses |
WEEKLY SUBJECTS AND RELATED PREPARATION STUDIES
| Week | Subjects | Related Preparation | Learning Outcome |
| 1 | Introduction | Chapters 1 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 2 | Material Properties | Chapter 2 and 3 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 3 | Powder Metallurgy | Chapter 12 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 4 | Casting | Chapter 11 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 5 | Polymer Processing | Chapter 9 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 6 | Metal Forming; Bulk deformation Processes | Chapter 13 and 14 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 7 | Metal Forming; Bulk and Sheet Metal Forming Processes | Chapter 14 and 15 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 8 | Metal Cutting Theory and Hole Processing Operations | Chapter 18 and 21 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 9 | Turning Operations | Chapter 20 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 10 | Milling Operations | Chapter 22 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 11 | Abrasive Machining | Chapter 23 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 12 | Non-Traditional Machining Processes | Chapter 26 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 13 | Welding and Brazing | Chapters 29, 30, 31, 32 ve 33 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 14 | Automation | Chapters 38 Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, | |
| 15 | Review of the Semester | ||
| 16 | Final Exam |
| Course Notes/Textbooks | Materials and Processes in Manufacturing, by E. Paul DeGarmo, J. T. Black, Ronald A. Kohser, Wayne Anderson, 8th Ed., John Wiley & Sons, New York, 1999 (ISBN-10: 047136679X) |
| Suggested Readings/Materials | 1. Fundamentals of modern manufacturing, M.P. Groover, 3rd ed., 2007, Wiley 2. Manufacturing Processes for Engineering Materials, S. Kalpakjian, Addison Wesley, 1999, 6th Ed. |
EVALUATION SYSTEM
| Semester Activities | Number | Weigthing | LO 1 | LO 2 | LO 3 | LO 4 | LO 5 |
| Participation | |||||||
| Laboratory / Application |
1
|
15
|
|||||
| Field Work | |||||||
| Quizzes / Studio Critiques | |||||||
| Portfolio | |||||||
| Homework / Assignments | |||||||
| Presentation / Jury | |||||||
| Project | |||||||
| Seminar / Workshop | |||||||
| Oral Exams | |||||||
| Midterm |
2
|
45
|
|||||
| Final Exam |
1
|
40
|
|||||
| Total |
| Weighting of Semester Activities on the Final Grade |
3
|
60
|
| Weighting of End-of-Semester Activities on the Final Grade |
1
|
40
|
| Total |
ECTS / WORKLOAD TABLE
| Semester Activities | Number | Duration (Hours) | Workload |
|---|---|---|---|
| Theoretical Course Hours (Including exam week: 16 x total hours) |
16
|
2
|
32
|
| Laboratory / Application Hours (Including exam week: '.16.' x total hours) |
16
|
2
|
32
|
| Study Hours Out of Class |
14
|
3
|
42
|
| Field Work |
0
|
||
| Quizzes / Studio Critiques |
0
|
||
| Portfolio |
0
|
||
| Homework / Assignments |
0
|
||
| Presentation / Jury |
0
|
||
| Project |
0
|
||
| Seminar / Workshop |
0
|
||
| Oral Exam |
0
|
||
| Midterms |
2
|
20
|
40
|
| Final Exam |
1
|
34
|
34
|
| Total |
180
|
COURSE LEARNING OUTCOMES AND PROGRAM QUALIFICATIONS RELATIONSHIP
|
#
|
PC Sub | Program Competencies/Outcomes |
* Contribution Level
|
||||
|
1
|
2
|
3
|
4
|
5
|
|||
| 1 |
To have knowledge in Mathematics, science, physics knowledge based on mathematics; mathematics with multiple variables, differential equations, statistics, optimization and linear algebra; to be able to use theoretical and applied knowledge in complex engineering problems |
-
|
-
|
-
|
-
|
-
|
|
| 2 |
To be able to identify, define, formulate, and solve complex mechatronics engineering problems; to be able to select and apply appropriate analysis and modeling methods for this purpose. |
-
|
-
|
-
|
-
|
-
|
|
| 3 |
To be able to design a complex electromechanical system, process, device or product with sensor, actuator, control, hardware, and software to meet specific requirements under realistic constraints and conditions; to be able to apply modern design methods for this purpose. |
-
|
-
|
-
|
-
|
-
|
|
| 4 |
To be able to develop, select and use modern techniques and tools necessary for the analysis and solution of complex problems encountered in Mechatronics Engineering applications; to be able to use information technologies effectively. |
-
|
-
|
-
|
-
|
-
|
|
| 5 |
To be able to design, conduct experiments, collect data, analyze and interpret results for investigating Mechatronics Engineering problems. |
-
|
-
|
-
|
-
|
-
|
|
| 6 |
To be able to work effectively in Mechatronics Engineering disciplinary and multidisciplinary teams; to be able to work individually. |
-
|
-
|
-
|
-
|
-
|
|
| 7 |
To be able to communicate effectively in Turkish, both in oral and written forms; to be able to author and comprehend written reports, to be able to prepare design and implementation reports, to present effectively, to be able to give and receive clear and comprehensible instructions. |
-
|
-
|
-
|
-
|
-
|
|
| 8 |
To have knowledge about global and social impact of engineering practices on health, environment, and safety; to have knowledge about contemporary issues as they pertain to engineering; to be aware of the legal ramifications of engineering solutions. |
-
|
-
|
-
|
-
|
-
|
|
| 9 |
To be aware of ethical behavior, professional and ethical responsibility; information on standards used in engineering applications. |
-
|
-
|
-
|
-
|
-
|
|
| 10 |
To have knowledge about industrial practices such as project management, risk management and change management; to have awareness of entrepreneurship and innovation; to have knowledge about sustainable development. |
-
|
-
|
-
|
-
|
-
|
|
| 11 |
Using a foreign language, he collects information about Mechatronics Engineering and communicates with his colleagues. ("European Language Portfolio Global Scale", Level B1) |
-
|
-
|
-
|
-
|
-
|
|
| 12 |
To be able to use the second foreign language at intermediate level. |
-
|
-
|
-
|
-
|
-
|
|
| 13 |
To recognize the need for lifelong learning; to be able to access information; to be able to follow developments in science and technology; to be able to relate the knowledge accumulated throughout the human history to Mechatronics Engineering. |
-
|
-
|
-
|
-
|
-
|
|
*1 Lowest, 2 Low, 3 Average, 4 High, 5 Highest
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