![]() Topics include: G-code coordinate systems and setting work offsets incremental/absolute programming creating and editing part programs tooling and tool offsets use of overrides, single block modes, dry run and other realtime control functionsÄesigned for the beginner/novice, this course exposes the student to the fundamentals of programming a CNC lathe. This course is designed to teach the basics of CNC programming. ![]() Topics include: The role of the operator, operation of machine, overview of a CNC mill (horizontal and vertical), simple programming, offsets, understanding speeds and feeds, overview of machining cycles, coolant/cutting fluids, special modes (dry run, z-axis neglect) for proving out a program. This course is designed to cover the basic fundamentals of CNC milling machine operator. Fanuc 0i control will be utilized during class. Topics include standard operations related to the program, edit, MDI, and manual modes how to access tool offsets, work offsets, parameters, and other various screens required to run/operate the control how to power up and zero return the axis MDI input for basic S,T, & M commands accessing the program directory and calling up part programs special functions such as machine lock, dry run, etc. This course covers the basic control and operation of an Okuma control. ![]() This course covers the basic control and operation of a Fanuc control. Topics include basic shop math and blueprint reading part tolerances and specifications use of precision measuring instruments such as micrometers and verniers role of the CNC operator basics of a CNC mill introduction to machining cycles (including canned cycles) machining speeds and feeds what are offsets and how are they used understanding part programs and their structure. ![]() Designed for the beginner/novice, this course exposes the student to the fundamentals of being a CNC machine operator. ![]()
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