CNC (Computer Numerical Control) technology has revolutionized the manufacturing industry, providing precision and efficiency in the production process. With the increasing demand for skilled CNC operators and programmers, online courses have emerged as a convenient and accessible option for individuals seeking to acquire the necessary skills and knowledge. In this article, we will explore some of the best CNC courses available online, analyzing their features, content, and effectiveness.
Here’s a look at the Best Cnc Courses and Certifications Online and what they have to offer for you!
10 Best Cnc Courses and Certifications Online
- 10 Best Cnc Courses and Certifications Online
- 1. Introduction to CNC Programming by Marc Cronin (Udemy) (Our Best Pick)
- 2. Fusion 360 tutorial for CNC machinists by Marc Cronin (Udemy)
- 3. CNC Lathe programming using G Code by Marc Cronin (Udemy)
- 4. CNC Milling machine programming using G-Code by Marc Cronin (Udemy)
- 5. Basic G-code Programming for CNC Mills. by Tom Stikkelman (Udemy)
- 6. CNC cutting tools, and machining techniques by Vaheh Golestanian (Udemy)
- 7. Mastering Artcam 2017 2D and CNC machine by Murad Gulaliyev (Udemy)
- 8. How to create amazing 3D arts with Artcam by Murad Gulaliyev (Udemy)
- 9. CNC programming with SolidWorks CAM by Vaheh Golestanian (Udemy)
- 10. Become CNC Master with Vectric Cut2D by Murad Gulaliyev (Udemy)
1. Introduction to CNC Programming by Marc Cronin (Udemy) (Our Best Pick)
The course, “Introduction to CNC Programming,” is designed to teach students how to program CNC Routers and CNC Milling machines that use the GCODE language. The course aims to help CNC Router owners who struggle with learning to program their machine. The course instructor, Marc Cronin, asserts that understanding the G-Code language is essential for every machinist, whether they are a hobbyist or an Aerospace machinist.
The course covers the basics of understanding the G-Code language, from each G-CODE command to programming your first part in a step-by-step process. To help students, there are example programs written around each lesson. The course also covers MCODES, cycles, understanding the cartesian coordinate system, tooling, cutter compensation, climb milling vs conventional milling, and many more. Additionally, the course includes five full CNC programs that explain each section in a real-world environment.
After completing the course, students will be able to program any shape using GCODE and will know tips and tricks used by professional CNC machinists to get the results they need. The course is divided into six sections: Introduction, The Fundamentals, Programming a profile, Programming a part – The Widget, The Thingy, and Bonus Information.
The Fusion 360 tutorial for CNC machinists is a CAD/CAM training course that aims to teach users how to make parts for CNC machines using Fusion 360. The course is designed for both hobbyists and professionals who have a CNC router and want to utilize CAD/CAM to produce parts. Fusion 360 is a free CAD/CAM system that is suitable for CNC, and this course focuses on the necessary features of Fusion 360 to create finished products for CNC machines.
The course’s instructor, Marc Cronin, is a machinist who has written the course for machinists. The course starts by introducing the necessary features of Fusion 360 to produce a component on a CNC machine. Then, the course progresses to modeling a part using constraints and best practices. The next section covers Computer-aided manufacture (CAM), where users learn how to machine the part and create tool paths to produce excellent results every time.
The course also covers engraving and teaches users how to import DXF files and turn vector graphics into G-Code files. Users will get a feel for Fusion 360 and progress to more complex parts such as 3D milling roughing cycles, finishing passes, and adjusting CAM tool paths to produce a great part on CNC machines.
Overall, the Fusion 360 tutorial for CNC machinists covers the necessary features of Fusion 360 to create finished products for CNC machines. The course is designed for CNC machinists, hobbyists, and professionals and includes sections such as introduction, menu overview, modeling a part with CAD, tool paths using CAM, converting DXF files to tool paths, modeling a lifting eye, 3D milling tool paths with CAM, and final words.
This course titled “CNC Lathe programming using G Code” is focused on training individuals in programming CNC Lathes and machining centers using FANUC G Code. It is a critical skill required to work in a machine shop. The course covers everything from simple drilled holes to machining screw threads, working with sub-spindles, driven tooling, milling and drilling using the Y-axis and more. It is suitable for both beginners and those looking to sharpen their skills.
The course teaches individuals to program everything from a 2 Axis lathe to a multi-spindle, multi-turret 8 Axis machining center with driven tooling. The program includes layout, center line drilling and tapping, boring, roughing cycles, finishing cycles, screw cutting, parting off, using driven tooling to mill on the Y and Z Axis, using driven tooling to drill and tap on the Y and Z Axis, using the sub-spindle, and lots of handouts to print or save on your phone as a reference when at your machine.
The course is designed to impart techniques and practices that will establish a lifelong career as a CNC machinist. Individuals who are new to the world of G Code programming are advised to enroll in the foundation course before this one. The course does not include a setup tutorial, at-the-machine instructions, or how to operate a CNC machine course.
The course is divided into sections that cover introduction, program layout, center line operations, boring the face of the component, profile roughing and finishing cycles, screw cut operation, part off, using driven tooling, sub-spindle operations, hole production across the Z plane, machining a bolt hole circle, and bonus information.
The CNC Milling machine programming using G-Code course is led by instructor Marc Cronin. The course is designed to teach learners to read and write CNC programs using FANUC G Code. The short description of the course states that the process of learning has never been easier.
The long description of the course outlines the different scenarios in which an individual may be interested in taking this course. These scenarios include those who wish to become a CNC machinist, those who have access to a CNC router or milling machine and need to learn how to program it, and those who are already working in a machine shop but wish to improve their skills and pay grade.
The course aims to teach learners how to program CNC milling machines to get their foot in the door in any machine shop. The course emphasizes the importance of having a good understanding of the code that CAM software outputs, instead of solely relying on CAD/CAM to produce parts. This is an essential aspect of being a CNC machinist.
The course covers all the cycles that a learner needs to know, including G81 drilling cycle, G82 Counter boring, G83 peck drilling, G84 Tapping cycle, and G85 Boring Cycles. All the techniques are also explained, such as G10 and G54 Datum setup, Helical milling, Programming best practices, Example programs, G17, G18, and G19 planes explained, and Floating datum.
The course promises to turn learners into experts in the world of CNC machining. It also comes with a mid-course quiz, final assessment, and bonus information. However, it does not teach learners the machine setup procedure, at the machine instructions, or how to operate a CNC machine.
The course is divided into sections, starting with the introduction, program layout and header, programming a profile part, mid-course quiz, canned cycles, helical milling, programming a part – The Doobry, and final assessment.
The Basic G-code Programming for CNC Mills course, taught by Tom Stikkelman, aims to educate students on the fundamentals of G-code programming for 3-axis CNC mills. Throughout the course, students will become proficient in reading, editing, and writing basic G-code programs.
The course content covers a variety of G-code programming aspects, including rough and finish profile milling, face milling, line right and line left cutter compensation, determining I and J values for clockwise and counterclockwise arcs, canned cycles for drilling operations, program format, calculating feeds and speeds for milling, drilling, and tapping, creating and calling sub-routines, and managing sub-programs using the M98 command.
Each section of the course concludes with a PDF exercise for students to practice their newly-acquired skills. The curriculum is divided into several sections, including an Introduction, Cartesian Coordinate System, downloading and installing the G-Wizard Editor, converting coordinates into straight line tool paths, clockwise and counterclockwise tool paths, setting the work offset, setting the tool length offset, blueprint reading to plan a machining process, absolute and incremental mode, cutter compensation, calculating right angle triangles, face-milling, circle milling a hole, drilling canned cycles, G10 automatic work offset loading, sequence numbers, sub-routines and sub-programs, and the M98 sub-program command.
Course Title: CNC Cutting Tools and Machining Techniques
Course Instructors: Vaheh Golestanian
Course Short Description: This course focuses on the selection of cutting tools for CNC machines.
Course Long Description: The CNC Cutting Tools and Machining Techniques course is designed to help novice individuals with no machine shop experience learn how to choose appropriate cutting tools and set cutting data based on operation type, material, efficiency, and other factors. This course also includes suggestions on efficient machining techniques. It is an introductory to intermediate level course that can complement CNC programming skills or training.
Course Content and Sections:
1. Machining Technology – This section provides an overview of the basics of machining technology and its applications.
2. Turning – This section focuses on the different types of turning operations and how to select appropriate cutting tools for these operations.
3. Milling – This section covers the different milling techniques and the selection of cutting tools for each technique.
4. Drilling and Tapping – This section explains the drilling and tapping process and the selection of cutting tools for these operations.
5. Conclusion – This section summarizes the course topics and provides suggestions for further learning.
This course is ideal for individuals interested in learning about cutting tool selection and machining techniques for CNC machines.
The course titled “Mastering Artcam 2017 2D and CNC machine” is aimed at individuals in the wood working industry who use CNC machines. The course is designed to teach participants how to draw and create artworks using Artcam, a popular and powerful CAM software.
Participants will learn how to draw 2D/3D drawings and convert them into CNC machine language for cutting. The course covers topics such as working with vectors, importing files, working with bitmaps and colors, nesting files to save materials, preparing drawings for CNC cutting, and using different types of machining tools.
The course is based on Artcam 2017, but the information can be applied to any version of the software. The course instructor, Murad Gulaliyev, provides real-life examples of working with Artcam and CNC machines.
The course consists of tutorials on the Artcam interface, drawing tools, modifying tools, working with layers, vector editing tools, array tools, creating and drawing vectors, working with bitmaps, working with models, working with text, nesting tools, and machining tools.
Course Title: How to Create Amazing 3D Arts with Artcam
Course Instructors: Murad Gulaliyev
Course Short Description: This course aims to train individuals in becoming professional 3D CNC designers by utilizing a powerful tool called Artcam.
Course Long Description: Artcam is a versatile tool that enables designers to create a variety of different things with their CNC machine. It offers a wide range of tools for various situations, and this course has been designed to break down all its features into smaller, more manageable sections.
The instructor already has a video course about the 2D part of Artcam, and with this course, individuals will be able to dive into 3D modeling in Artcam. There is also a possibility of a third video course being launched in the future, focused on rotary and jewelry design in Artcam.
In this video course, individuals will learn:
– How to use all the tools that enable the creation of amazing 3D reliefs from vectors.
– How to modify reliefs or imported 3D objects using Artcam tools.
– How to create a realistic view using special tools.
– How to import or create 3D objects and then combine them to get the whole view of a 3D model with materials and background.
– How to properly configure machining tools and export files to cut them in CNC machines.
All videos are recorded as short and informative as possible, providing full information in a short time. All tools and features are described with real examples that provide a real view of how to use those tools.
The CNC programming with SolidWorks CAM course, instructed by Vaheh Golestanian, aims to provide an introduction to SolidWorks CAM. The course is designed for individuals with some CNC mill experience and will teach them how to operate SolidWorks CAM to generate G-codes for 2.5 and 3 axis operations. However, it is recommended that individuals without any machining experience take the “CNC cutting tools and machining techniques” course first, as it covers the basics of cutting tools, cutting data, and machining techniques, which are essential for this course.
The course will cover the following sections: Introduction, Technology database, Starting to use SolidWorks CAM, 2.5 axis mill operations, and 3 axis mill operations. By the end of the course, individuals will be able to generate G-codes for various milling operations using SolidWorks CAM.
The course title is “Become CNC Master with Vectric Cut2D” and the instructor is Murad Gulaliyev. The course is designed for individuals who want to become a CNC Pro in a short amount of time. The course offers a video tutorial on Vectric Cut2D software and covers a range of topics.
The course instructor starts with the basics and explains step by step how to work with the software and how to do everything in the right way. Students will learn about the software structure and how to draw anything within the software without any side software.
The instructor will show students how to modify their drawings to get the result they want. Students will also learn how to work with imported files from other software and how to solve any problems they may encounter.
The course will cover how to properly configure toolpath (program CNC machine) so that it will work properly and quickly. The course was created with Vectric Aspire, which offers additional tools that can’t be found in Vectric Cut2D.
The course includes four sections: Start here, How to draw in Vectric Cut2d, 2D editing tools, and Machining tools. Individuals who want to become CNC masters are welcome to take the course.