Kursuse eesmärk on anda tudengitele põhjalik arusaam raalintegreeritud tootmise põhimõtetest, tehnikatest ja tehnoloogiatest mehaanika valdkonnas, tutvustades asjakohaseid põhimõtteid loengutundides ning viies läbi praktilisi ülesandeid harjutus-/laboritundides.

The aim of the course is to provide students with a comprehensive understanding of the principles, techniques, and technologies of Computer-Aided Manufacturing in the field of mechanics, introducing relevant principles in lecture sessions and conducting practical exercises with laboratory tasks.

Õppeaine läbinud üliõpilane:
- mõistab raalintegreeritud tootmissüsteemide (CAM) tööpõhimõtteid ja kasutab vähemalt ühte efektiivselt;
- viib läbi praktilisi tootmisoperatsioonide ettevalmistusoperatsioone, sh planeerib protsesse, valib tööriistu, rakiseid ja seadmeid, loob CNC programme ja valmistab ette tootmisdokumentatsiooni;
- analüüsib arvjuhtimisega tootmisseadmete alternatiivseid rakendusi;
- valib optimaalse tootmistehnoloogia ja valmistab füüsilise toote

After completing this course the student:
- exhibits a solid comprehension of Computer Aided Manufacturing (CAM) systems;
- illustrates practical manufacturing operation skills, including process planning, tool and machine selection, CAM programming, preparing manufacturing documentation, etc.;
- analyzes alternative applications of Computer Numerical Control (CNC) technology;
- distinguishes optimal production technology and produce a physical product.

Teoreetiliste kontseptsioonide, praktiliste harjutuste ja reaalse maailma projektide abil arendavad üliõpilased omale oskused ja teadmised, mis on vajalikud tõhusa ja efektiivse tootmisprotsessi planeerimiseks, teostamiseks ja optimeerimiseks kaasaegsete raalintegreeritud tootmise (CAM) tööriistade ning strateegiate abil. Kursus sisaldab praktilist projekti reaalse toote loomiseks (projekteerimine ja valmistamine) koostöös valutehnoloogia kursuse üliõpilastega.

Through theoretical concepts, practical exercises, and real-world projects, students develop the skills and knowledge necessary for efficient and effective planning, execution, and optimization of manufacturing processes using modern Computer-Aided Manufacturing (CAM) tools and strategies. The course includes a practical project involving the creation of an actual product (design and manufacturing) in collaboration with students from the casting technology course.

-

-

-

-

1. Mikell P. Groover. Automation, Production Systems, and Computer-Integrated Manufacturing, Global Edition. 2015.
2. M. M. M. Sarcar, K. Mallikarjuna Rao, K. Lalit Narayan. Computer Aided Design and Manufacturing. 2008.
3. C. Elanchezhian, G. Shanmuga Sundar. Computer Aided Manufacturing. 2007.
4. Michael Fitzpatrick. Machining and CNC technology, McGraw-Hill, 2005.
5. James A. Harvey. CNC Trade Secrets: A Guide to CNC Machine Shop Practices, Industrial Press, 2015.
6. Peter Smid. CNC programming handbook: a comprehensive guide to practical CNC programming, Industrial Press, 2007.
7. Ken Evans. Programming of CNC Machines, Industrial Press, 2007.
8. Thomas M. Crandell. CNC Machining and Programming. New York, Industrial Press Inc., 2003.
9. Yusuf Altinatas. Manufacturing automation: metal cutting mechanics, machine tool vibrations, and CNC design. Cambridge University Press, 2006.
10. Robert Quesada. Computer Numerical Control, Machining and turning centers. Pearson Prentice Hall, 2005.
11. John R. Walker, Bob Dixon. Machining Fundamentals. The Goodheart-Willcox Company, Inc. 2019.
12. Tim Stevens. Wokholding for Machinists. The Crowood Press, 2017.
13. David A. Stephenson, John S. Agapiou. Metal Cutting Theory and Practice. Taylor & Francis, 2006.
14. Hans Bernhard Kief, Helmut A. Roschiwal, Karsten Schwarz. The CNC Handbook: Digital M

-