This course provides an intensive overview of workholding, math, inspection, safety, metal cutting, materials, quality, and grinding. These skills are essential for working as a CNC machinist.
Requirements:
Hardware Requirements:
- This course can be taken on either a PC or Mac.
Software Requirements:
- PC: Windows 8 or later.
- Mac: macOS 10.6 or later.
- Browser: The latest version of Google Chrome or Mozilla Firefox are preferred. Microsoft Edge and Safari are also compatible.
- Adobe Acrobat Reader.
- Software must be installed and fully operational before the course begins.
Other:
- Email capabilities and access to a personal email account.
Instructional Material Requirements:
The instructional materials required for this course are included in enrollment and will be available online.
Computers play a significant role in much of the world today, with many organizations using technology to help streamline business operations. The manufacturing industry is no exception, and you can make yourself an indispensable part of the future of manufacturing by training to become a Computer Numerical Control (CNC) machinist. This online CNC Machinist course will provide you with the knowledge and skills you need to prove competency and begin your career quickly.
This CNC machinist training course provides an intensive overview of the skills necessary to perform CNC machining, including workholding, math, inspection, safety, metal cutting, materials, quality, and grinding.
Want an even more immersive learning experience? Ask about our CNC Machinist with VR Training course, which includes a VR headset for interactive, simulation-based training!
- Abrasives
- Grinding Processes 201
- Grinding Safety 211
- Basics of the Surface Grinder 231
- Setup for the Surface Grinder 241
- Surface Grinder Operation 251
- Introduction to Grinding Fluids
- Grinding Ferrous Metals 311
- Grinding Nonferrous Materials 321
- Grinding Wheel Materials 331
- Dressing and Truing 341
- Grinding Wheel Geometry 361
- CNC
- Introduction to CNC Machines 201
- Basics of the CNC Lathe 211
- Basics of the CNC Mill 212
- CNC Specs for the Mill 220
- Coordinates for the CNC Lathe 221
- Coordinates for the CNC Mill 222
- CNC Specs for the Lathe 225
- Basics of the G Code Programming 231
- Introduction to CAD and CAM for Machining 241
- Control Panel Functions for the CNC Lathe 251
- Control Panel Functions for the CNC Mill 252
- Offsets on the CNC Lathe 261
- Offsets on the CNC Mill 262
- Creating a CNC Turning Program 301
- Creating a CNC Milling Program 302
- Calculations for Programming the Lathe 311
- Calculations for Programming the Mill 312
- Canned Cycles for the Lathe 321
- Canned Cycles for the Mill 322
- CNC Controls: Fanuc
- Fanuc Mill: Control Panel Overview 250
- Fanuc Lathe: Control Panel Overview 255
- Fanuc Mill: Entering Offsets 260
- Fanuc Lathe: Entering Offsets 265
- Fanuc Mill: Locating Program Zero 270
- Fanuc Lathe: Locating Program Zero 275
- Fanuc Mill: Program Execution 280
- Fanuc Lathe: Program Execution 285
- Fanuc Mill: Program Storage 310
- Fanuc Mill: Program Storage 315
- Fanuc Mill: First Part Runs 320
- Fanuc Mill: First Part Runs 325
- CNC Controls: Haas
- Haas Mill: Classic Control Panel Overview 250
- Haas Lathe Classic Control Panel Overview 256
- Hass Mill Classic Controls: Entering Offsets 260
- Hass Lathe Classic Controls: Entering Offsets 265
- Haas Mill Classic Controls: Locating Program Zero 270
- Haas Lathe Classic Controls: Locating Program Zero 275
- Haas Mill Classic Controls: Program Execution 280
- Haas Lathe Classic Controls: Program Execution 285
- Haas Mill Classic Controls: Program Storage 310
- Haas Lathe Classic Controls: Program Storage 315
- Haas Mill Classic Controls: First Part Runs 320
- Haas Lathe Classic Controls: First Part Runs 325
- CNC Controls: Mazak
- Mazak Mill: Control Panel Overview 250
- Mazak Lathe: Control Panel Overview 255
- Mazak Mill: Locating Program Zero 270
- Mazak Lathe: Locating Program Zero 275
- Mazak Mill: Entering Offsets 280
- Mazak Lathe: Entering Offsets 285
- Creating an EIA/ISO Program for the Mazak Mill 286
- Creating an EIA/ISO Program for the Mazak Lathe 287
- Creating a Mazatrol Program for the Mill 288
- Creating a Mazatrol Program for the Mazak Lathe 289
- Mazak Mill: Program Execution 290
- Mazak Lathe: Program Execution 295
- Mazak Mill: Program Storage 310
- Mazak Lathe: Program Storage 315
- Mazak Mill: First Part Runs 320
- Mazak Lathe: First Part Runs 325
- Electrical Systems
- Safety for Electrical Work 111
- Inspection
- Basic Measurement 101
- Calibration Fundamentals 111
- Basics Tolerance 121
- Blueprint Reading 131
- Hole Standards and Inspection 141
- Thread Standards and Inspection 151
- Surface Texture and Inspection 201
- Interpreting Prints 231
- Introduction to GD&T 301
- Major Rules of GD&T 311
- Inspecting with Optical Comparators 351
- Inspecting with CMMs 361
- In-Line Inspection Applications 381
- Lean
- Lean Manufacturing Overview 101
- Continuous Process Improvement: Managing Flow 124
- Continuous Process Improvement: Identifying and Eliminating Waste 125
- Total Productive Maintenance 141
- 5S Overview 151
- Cell Design and Pull Systems 161
- Intro to Six Sigma 171
- Troubleshooting 181
- Conducting kaizen Events 191
- SPC Overview 211
- Metrics for Lean 231
- Process Flow Charting 241
- Strategies for Setup Reduction 251
- Value Stream Mapping: The Current State 301
- Six Sigma Goals and Tools 310
- Value Stream Mapping: The Future State 311
- Manual Machining
- Manual Mill Basics 201
- Engine Lathe Basics 211
- Manual Mill Setup 221
- Engine Lathe setup 231
- Benchwork and Layout Operations 241
- Manual Mill Operation 251
- Engine Lathe Operation 261
- Holemaking on the Manual Mill 271
- Threading on the Engine Lathe 301
- Taper Turning on the Engine Lathe 311
- Materials
- Introduction to Physical Properties 101
- Introduction to Mechanical Properties 111
- Introduction to Metals 121
- Introduction to Metal Manufacturing 180
- Classification of Steel 201
- Essentials of Heat Treatment of Steel 211
- Hardness Testing 221
- Ferrous Metals 231
- Nonferrous Metals 241
- Exotic Alloys 301
- Metal Cutting
- Safety for metal Cutting 101
- Cutting Processes 111
- Overview of Machine tools 121
- Basic Cutting Theory 201
- Band Saw Operation 211
- Introduction to Metal Cutting Fluids 221
- Metal Cutting Fluid Safety 231
- Toolholders for Turning 260
- Speed and Feed for the Lathe 301
- Speed and Feed for the Mill 311
- Cutting Tool Materials 321
- Machining Titanium Alloys 325
- Carbide Grade Selection 331
- ANSI Insert Selection 341
- Lathe Tool Geometry 351
- Mill Tool Geometry 361
- Drill Tool Geometry 371
- Quality
- ISO 9001: 2015 Review 122
- Approaches to Maintenance 131
- Process Design and Development 133
- Production System Design and Development 136
- Customer-Focused Quality 155
- Safety
- Introduction to OSHA 101
- Ergonomics 102
- Personal Protective Equipment 111
- Noise Reduction and Hearing Conversation 121
- Respiratory Safety 131
- Lockout/Tagout Procedures 141
- SDS and Hazard Communication 151
- Bloodborne Pathogens 161
- Walking and Working Surface 171
- Fire Safety and Prevention 181
- Flammable/Combustible Liquids 191
- Hand and Power Tool Safety 201
- Safety for Lifting Devices 211
- Powered Industrial Truck Safety 221
- Confined Spaces 231
- Environmental Safety Hazards 241
- Machine Guarding 271
- Shop Essentials (Applied Mathematics)
- Math Fundamentals 101
- Math: Fractions and Decimals 111
- Units if Measurement 112
- Algebra Fundamentals 141
- Geometry: Lines and Angles 151
- Geometry: Triangles 161
- Geometry: Circles and Polygons 171
- Trigonometry: The Pythagorean Theorem 201
- Trigonometry: Sine, Cosine, Tangent 211
- Trigonometry: Sine Bar applications 221
- Statistics 231
- Stamping
- Press Basics 110
- Supervisor Essentials
- Essentials of Leadership 100
- Managing Performance: Best Practices 130
- Managing Performance: Corrective Actions 135
- Basics of Manufacturing Costs 140
- Intro to Managerial Accounting 145
- Conflict Resolution Principles 150
- Conflict Resolution for Different Groups 155
- Team Leadership 160
- Manufacturing Management 180
- Personal Effectiveness 190
- Managing the Diverse Workplace 210
- Harassment and Discrimination 215
- Performance Management and the Law 230
- Welding
- Fabrication Process 232
- Workforce Essentials
- Essentials of Communication 115
- Workholding
- Introduction to Workholding 101
- Supporting and Locating Principles 111
- Locating Devices 121
- Clamping Basics 131
- Chucks, Collets, and Vises 141
- Fixture Body Construction 200
- Fixture Body Construction 200
- Fixture Design Basics 201
- Drill Busing Selection 230
- Virtual Labs/Simulations (optional)
- Safety Awareness in Manufacturing
- Fire Safety
- 5S and Hand Tool Identification
- Inspecting Outer Diameters I
- Inspecting Outer Diameters II
- Inspecting Groove Width
- Inspecting Thread Sizes
- Inspecting Inside Diameter
- Inspecting Depth
- Establishing Datums
What you will learn
- Production floor safety
- CNC controls and programming
- Metallurgy
- Machining and grinding processes
- Inspection methods
- Six Sigma, 5S, Lean, and TPM
- Workholding principles
How you will benefit
- Prepare for a career as a computer numerical control (CNC) machinist, CNC machine operator, CNC lathe operator, CNC mill operator, CNC operator, machine operator, or machinist
- Gain the skills you need to confidently perform your job
This is not an instructor facilitated course; however, support will be provided through email.