Drukuj sylabusComputer Integrated Manufacturing
Informacje ogólne
| Kod przedmiotu: | WMTAXCSD-CIM |
| Kod Erasmus / ISCED: | (brak danych) / (brak danych) |
| Nazwa przedmiotu: | Computer Integrated Manufacturing |
| Jednostka: | Wydział Mechatroniki, Uzbrojenia i Lotnictwa |
| Grupy: | |
| Punkty ECTS i inne: |
(brak)
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| Język prowadzenia: | angielski |
| Forma studiów: | stacjonarne |
| Rodzaj studiów: | III stopnia |
| Rodzaj przedmiotu: | obowiązkowy |
| Forma zajęć liczba godzin/rygor: | (tylko po angielsku) Total 30 h, Lectures 10 h, Exercises 10 h, Laboratories 10 h, Total ECTS 4,00 |
| Przedmioty wprowadzające: | (tylko po angielsku) Design and optimization of structures The main purpose of scientists investigations are to recognize fundamental problems of the range of a design control and optimization of some structure elements which could be used as airframe parts. The main effort acting on initiate a new design concept. The design and optimization process is an iterative effort. This process is performed in the Design Wheel. elements are assumed to come from steady or unsteady aircraft air-load. Achieving the basic purpose should result from application and mastering the knowledge of such problems like: concept, requirement and analysis frequently points toward new technologies which can initiate design activities. Advanced measurement systems Coordinate measurement of parts (CMM-Coordinate Measuring Machine, laser and optical measurement systems) and virtual coordinate measurement of surfaces in CAD modules of the integrated CAD/CAM/CAE/CAQ system. Developed advanced software (Combinatorial-cyclic method of optimization – CCOpt) for both ways of coordinate measurement. Virtual measurements (accuracy in CAD of UGS NX is equal 10-9 mm) and CCOpt as tools to determine the actual accuracy of the coordinate measuring systems. Identification of hardware errors, set-up errors, and machining or forming errors. |
| Programy: | (tylko po angielsku) FIELD OF SCIENCE: Mechanics |
| Autor: | dr |
| Bilans ECTS: | (tylko po angielsku) 1. Participation in lectures / 10 h 2. Participation in laboratories / 10h 3. Participation in exercises / 10h 4. Participation in seminars / 0 h 5. Independent study of the subject matter of lectures / 20 h 6. Self-preparation for laboratories / 10 h 7. Self-preparation for exercises / 20 h 8. Independent preparation for the seminar / 0 9. Project implementation / 0 10. Participation in consultations / 20 h 11. Preparation for the exam / 0 12. Preparation for the test / 10 h 13. Participation in the examination / 0 Total student workload: 120 hours. / 4 ECTS Classes with teachers (1 + 2 + 3 + 4 + 9 + 10 + 13): 50 hours / 2 ECTS Activities related to scientific activity / Practical classes 60 hours / 2 ECTS |
| Skrócony opis: |
(tylko po angielsku) Software-based integration of design, engineering, manufacturing, and quality control (CAD/CAE/CAM/CAQ). CAD/CAM programming, simulation and optimization of processes within the frame of the integrated system as main tools in high technology, including aircraft and automotive industries. Program generated parametric design and CNC machining, including HSM (High Speed Machining). Advanced programming languages for CNC machine tools, simulation and optimization, e.g. GRIP in Siemens NX system. |
| Pełny opis: |
(tylko po angielsku) Lectures: 1. Software-based integration of design, engineering, manufacturing, and quality control (CAD/CAE/CAM/CAQ). CAD/CAM programming, simulation and optimization of processes within the frame of the integrated system as main tools in high technology, including aircraft and automotive industries /6h. 2. Program generated parametric design and CNC machining, including HSM (High Speed Machining) /4h. Exercises: 1. Advanced programming languages for CNC machine tools, simulation and optimization, e.g. GRIP in Siemens NX system. CNC machine tools and industrial robots for the aircraft industry /6h. 2. Postprocessors for CNC machine tools /4h. Laboratories: 1. Product quality control by extensive using of coordinate measurements in virtual and material prototyping /6h. 2. Advanced software for digitizing, scanning, and geometric errors analysis of CAD models and parts machined /4h. |
| Literatura: |
(tylko po angielsku) Basic: 1. EDS, UG/Open GRIP for CAD/CAM/CAE System, Electronic Data Systems, 1997. 2. Ito Y., Modular Design for Machine Tools, Mc Graw-Hill, 2008. 3. Daniel Raymer, Aircraft Design: A Conceptual Approach, 2008. 4. Megson T. H. G., Aircraft Structural Analysis, ELSEVIER, 2010. Additional Literature Journal articles: Aerospace Science and Engineering, Materials. |
| Efekty uczenia się: |
(tylko po angielsku) D_W03 Knowledge regarding methodology of scientific research in CAD science and related subjects (for example CAE, CAM) .D_U01 He/she has got skills connected with methodology of research in Mechanics sciences, especially regarding new design concept and technologies in producing a good aircraft design. D_U08 He/she can define and solve new tasks and problems connected with control design process leading to its development and applications. D_U09 He/she can properly teach using advanced training methods. D_K04 He/she understands the necessity to inform the society about the achievements of science and technology. |
| Metody i kryteria oceniania: |
(tylko po angielsku) The passing is conducted on the basis of passing the effects D_W03 of knowledge, practical skills and social competences. Exercises are verified by checking the skills for D_U01 to D_U07. Laboratories are classified on the basis of elements made in the CAD / CAM / CAE system based on the knowledge of D_W01 to D_W03 and skills in the field of D_U01 to D_U07 and social competences D_K01 to D_K02. |
| Praktyki zawodowe: |
(tylko po angielsku) Not expected. |
Właścicielem praw autorskich jest Wojskowa Akademia Techniczna.
