CNC Technician Training Program

Jumpstart your career in manufacturing with the CNC Technician Training Program at Austin Community College!

Learn the essential skills to become an entry-level CNC Technician and get hands-on training to prepare for opportunities with ARMA (Austin Regional Manufacturing Association) employers.

Plus, you may qualify for grant funding to help cover the costs. Don’t miss this chance to build a future in a high-demand field!

Great News for Aspiring CNC Technicians!

You may be eligible for grant funding that can cover the entire cost of the CNC Technician Training Program if you become an apprentice. Apprenticeship opportunities are available through the Austin Regional Manufacturers Association (ARMA).

Click below to learn how you can qualify for free tuition and start your journey toward a rewarding career.

Earn your CNC Technician certificate at ACC and gain the skills needed for a rewarding career in manufacturing. This program includes three key courses:

  • Print Reading for Machine Trades – Learn to interpret technical drawings and blueprints.
  • CNC Mills – Get hands-on experience operating CNC milling machines.
  • CNC Lathes – Master the basics of CNC lathe operations

Train in our state-of-the-art machine lab while benefiting from our close partnership with the Austin Regional Manufacturing Association (ARMA). ARMA employers look to ACC to hire CNC Technicians with the entry-level knowledge needed to succeed and grow in the field. Prepare for in-demand jobs and take the first step toward a promising career!

PROGRAM-LEVEL STUDENT LEARNING OUTCOMES

At the completion of the CNC Technician Level 1 Certificate the student will be able to:

  • Measure dimensions of finished workpieces to ensure conformance to specifications, using precision measuring instruments, templates, and fixtures.
  • Mount, install, align, and secure tools, attachments, fixtures, and workpieces on machines, using hand tools and precision measuring instruments.
  • Transfer commands from servers to computer numerical control (CNC) modules, using computer network links.
  • Insert control instructions into machine control units to start operation.
  • Enter commands or load control media, such as tapes, cards, or disks, into machine controllers to retrieve programmed instructions.
  • Implement changes to machine programs, and enter new specifications, using computers.
  • Input initial part dimensions into machine control panels.
  • Stop machines to remove finished workpieces or to change tooling, setup, or workpiece placement, according to required machining sequences.
  • Set up and operate computer-controlled machines or robots to perform one or more machine functions on metal or plastic workpieces.
  • Modify cutting programs to account for problems encountered during operation and save modified programs.
  • Implement changes to machine programs, and enter new specifications, using computers.
  • Set up future jobs while machines are operating.
  • Write simple programs for computer-controlled machine tools.
  • Check to ensure that workpieces are properly lubricated and cooled during machine operation.
  • Review program specifications or blueprints to determine and set machine operations and sequencing, finished workpiece dimensions, or numerical control sequences.
  • Remove and replace dull cutting tools.
  • Adjust machine feed and speed, change cutting tools, or adjust machine controls when automatic programming is faulty or if machines malfunction.
  • Maintain machines and remove and replace broken or worn machine tools, using hand tools.
  • Monitor machine operation and control panel displays and compare readings to specifications to detect malfunctions.
  • Listen to machines during operation to detect sounds such as those made by dull cutting tools or excessive vibration and adjust machines to compensate for problems.
  • Adjust machine feed and speed, change cutting tools, or adjust machine controls when automatic programming is faulty or if machines malfunction.
  • Calculate machine speed and feed ratios and the size and position of cuts.
  • Lift workpieces to machines manually or with hoists or cranes.
  • Stack or load finished items, or place items on conveyor systems.
  • Control coolant systems.
  • Confer with supervisors or programmers to resolve machine malfunctions or production errors or to obtain approval to continue production.
  • Clean machines, tooling, or parts, using solvents or solutions and rags.
  • Lay out and mark areas of parts to be shot peened and fill hoppers with shot.
  • Examine electronic components for defects or completeness of laser-beam trimming, using microscopes.