- Name of course:
- Alternative Manufacturing Technology
- Coordinator of course:
- dr inż. Jerzy Szałapak
- Type of course:
- Optional
- Level of education:
- Second cycle studies
- Programme:
- Mechatronika
- Group of courses:
- Wariantowe
- Code of course:
- AMT
- Nominal semester:
- 1 / AY 2021/2022
- Number of ECTS credits:
- 2
- Number of hours of student’s work to achieve learning outcomes:
- Number of hours that require the presence of a teacher - 35, including:
• attendance at the lectures- 30 hours;
• consultancy meetings - 5 hours.
The number of hours of independent work of student – preparation to tests: 15 hours
SUM 55 (2 ECTS)
- Number of ECTS credits on the course with direct participation of academic teacher:
- 1 ECTS credits - Number of hours that require the presence of a teacher - 35, including:
• attendance at the lectures- 30 hours;
• consultancy meetings - 5 hours.
- Language of course:
- english
- Number of ECTS credits on practical activities on the course:
- 0 ECTS
- Form of didactic studies and number of hours per semester:
-
- Lecture30h
- Exercise type of course0h
- Laboratory0h
- Project type of course0h
- Computer lessons0h
- Preliminary requirements:
- Knowledge of basic material properties and manufacturing technologies
- Limit of students:
- brak
- Purpose of course:
- Understanding of selected issues of micro- and nanotechnology, modern techniques for forming microelements and microcircuits, their assembly and protection.
- Contents of education:
- W.:. Fundamentals of Materials (and nanomaterials): Their Behavior and Manufacturing Properties, Mechanical Energy based processes (abrasive jet machining, water jet machining, ultrasonic), Electrical based processes (EDM, Wire Cut EDM, dielectric fluids), Chemical based processes (chemical and electrochemical machining, chemical milling, electromechanical grinding, etc.), Laser and plasma based processes, Fusion- and Solid-State Welding processes, Microassembly, Surface Treatments, Coatings, and Cleaning, Automation of Manufacturing Processes, Computer Aided Manufacturing.
- Methods of evaluation:
- Two tests during the lecture.
- Exam:
- no
- Literature:
- Ruszaj A.: Niekonwencjonalne metody wytwarzania elementów maszyn i narzędzi. Wyd. IOS, Kraków, 1999
MacGeough J. A. i inni: Electroforming Process and Application to Micro/Macro Manufacturing. Annals of the CIRP, Vol. 50/2/2001, 499-514.
S. Kalpakjian, S. Schmid: Manufacturing Engineering & Technology (7th Edition). Pearson; 7 edition (April 11, 2013)
Defense and Program-Unique Specifications Format and Content, 2 April 2008, Dept. of Defense
- Website of the course:
-
- Notes:
- brak
Effects of education
General academic profile - knowledge
- Charakterystyka AMT_W01
- Has in-depth, theoretically founded knowledge about the operation and construction of selected types of mechanical-electronic -IT systems and on the development trends of mechatronics and the latest developments in this area, including specific issues
Verification: Written tests
Field of study related learning outcomes:
K_W03, K_W10, K_W14
Area of study related learning outcomes:
P7U_W, I.P7S_WG.o, III.P7S_WG
General academic profile - skils
- Charakterystyka AMT_U01
- Is able to integrate knowledge of mechanical, electronic and automation systems while formulating and solving engineering tasks.
Verification: Written tests
Field of study related learning outcomes:
K_U01, K_U04, K_U12
Area of study related learning outcomes:
P7U_U, I.P7S_UW.o, I.P7S_UK, III.P7S_UW.o
General academic profile - social competences
- Charakterystyka AMT_K01
- Knows and understands the non-technical aspects of engineering activities in the field of mechatronics, including its impact on the natural environment and the labor market
Verification: Written tests
Field of study related learning outcomes:
K_K01, K_K02, K_K03
Area of study related learning outcomes:
P7U_K, I.P7S_KK, I.P7S_KO, I.P7S_KR