Course: NC-Machine Tool Programming

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Course title NC-Machine Tool Programming
Course code KTO/PNCSA
Organizational form of instruction Lecture + Lesson
Level of course Master
Year of study not specified
Semester Winter
Number of ECTS credits 7
Language of instruction English
Status of course Optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Course availability The course is available to visiting students
Lecturer(s)
  • Milsimerová Aneta, Ing.
  • Kroft Luboš, Ing.
  • Hnátík Jan, Ing. Ph.D.
Course content
Topics of lectures: 1st week: Basic principles of automated NC programming 2nd week KOVOPROG ? structure, geometry, technolgy 3rd week: KOVOPROG ? macro programme 4th week: Alpha CAM ? system operating 5th week: Alpha CAM ? NC data forming, postprocessing 6th week: CAD/CAM - introduction 7th week: Modelling ? edge and surface modellers 8th week: Modelling ? volume modeller 9th week: Drawing 10th week: CAD/CAM systems ? technological modules 11th week: CAD/CAM systems ? technological modules 12th week: CAD/CAM systems ? technological modules, multi- axis machining 13th week: Postprocessing, postprocessors generator Topics of seminars: 1st week: Programme forming for the CNC training lathe EMCO PC TURN 120 with a CNC control system SINUMERIK 810T 2nd week: Programme forming for the CNC training mill EMCO PC MILL 100 with a CNC control system SINUMERIK 810M 3rd week: KOVOPROG ? programming, geometry 4th week: KOVOPROG ? work in basic mode, partprogramming 5th week: Alpha CAM ? modelling, transferring a graphical format from another CAD systém, NC data forming, postprocessors 6th week: Alpha CAM ? modelling, transferring a graphical format from another CAD systém, NC data forming, postprocessors 7th week: CAD/CAM systém CATIA (CIMATRON IT) ? principles of handling, design, technology, simulation and NC data preparation 8th week: CAD/CAM systém CATIA (CIMATRON IT) ? principles of handling, design, technology, simulation and NC data preparation 9th week - 13th week: Individual work on the semestral projects

Learning activities and teaching methods
Lecture, Practicum
  • unspecified - 40 hours per semester
  • Practical training (number of hours) - 68 hours per semester
  • Preparation for an examination (30-60) - 60 hours per semester
  • Presentation preparation (report) (1-10) - 20 hours per semester
prerequisite
professional knowledge
Basic knowledge in machining technology, mathematics middle school level
learning outcomes
Students are able to design appropriate technology for machining particular parts and create NC programs manually or using CAD/CAM systems.
teaching methods
Lecture
Practicum
assessment methods
Oral exam
Recommended literature
  • CATIA ? Reference Manual.
  • AlphaCAM ? Reference Manual.
  • ASM Handbook, Vol. 16: Machining. Ohio, 1999. ISBN 0871700077.
  • JANDEČKA, K. Error Size of the Helix (screw) Groove by Grinding. Springdale Lane, Millersville, U.S.A., 2012. ISBN 978-3-03785-297-2.
  • Lynch, M. Computer Numerical Control, Advanced Techniques. McGraw-Hill, Inc.New York St. Luis, 1992. ISBN 0-07-039224-2.
  • 1. NÁPRSTKOVÁ, N., JANDEČKA,K. Programování výrobních strojů. Ústí nad Labem, 2010. ISBN 978-80-7414-216-1.


Study plans that include the course
Faculty Study plan (Version) Branch of study Category Recommended year of study Recommended semester
Faculty of Mechanical Engineering Materials Engineering and Engineering Metallurgy (1) Special and interdisciplinary fields 2 Winter
Faculty of Mechanical Engineering Design of Power Machines and Equipment (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Industrial Engineering and Management (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Design of Manufacturing Machines and Equipment (2005) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Special and interdisciplinary fields 2 Winter
Faculty of Mechanical Engineering Industrial Engineering and Management (2004) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Transport Vehicles and Handling Machinery (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Manufacturing Processes - Technology of Metal Cutting (2004) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Manufacturing Processes - Technology of Metal Cutting (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Materials Engineering and Engineering Metallurgy (2004) Special and interdisciplinary fields 2 Winter
Faculty of Mechanical Engineering Transport Vehicles and Handling Machinery (2005) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering Design of Manufacturing Machines and Equipment (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Mechanical engineering and mechanical production 2 Winter
Faculty of Mechanical Engineering - (1) Mechanical engineering and mechanical production 2 Winter