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Reach your engineering dreams

The course is designed to provide students with essential technical and practical knowledge necessary to become a skilled operator. Students will learn about machine configurations, controls, specifications and capabilities as well as laser cutting principles. Upon completion of the course, students will be able to run the machine safely, manage part programs, apply appropriate cutting techniques, modify cutting parameters, perform basic maintenance duties, and produce high-quality cut parts.

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Reach your engineering dreams

The course is designed to provide students with essential technical and practical knowledge necessary to become a skilled operator. Students will learn about machine configurations, controls, specifications and capabilities as well as laser cutting principles. Upon completion of the course, students will be able to run the machine safely, manage part programs, apply appropriate cutting techniques, modify cutting parameters, perform basic maintenance duties, and produce high-quality cut parts.

By this course you would encompass a comprehensive study of  cnc metal cutting and laser machine . Within a limited time of 3.25 hours, this course would elaborate on the theory of CNC Fiber LASER Cutting  supplemented with all the features, Shortcuts , Nesting & Programming of CNC LASER Machine.

Who should do this course?

  • Engineering Students who Wish to Make there Carrier in Engineering & technology.

  • For

    • Programming of

    • Teaches you how to make Nesting

    • Operational Training of CNC Fiber Laser Cutting Machine.

    • Calibrate your Machine for Optimum Performance.

    More about this course

    • This course builds on fundamental knowledge of CNC operations and part design for fiber laser cutting. Students will apply this information in a uniquely designed interactive and  demonstration optimizing the operation of a CNC laser cutting machine.

    • The Course is intended for customer maintenance personnel to gain a solid understanding of how the machine and laser system function to keep them running at their peak performance. Students will learn about the cutting unit,  Upon completion of the course, students will be able to diagnose and troubleshoot common machine- and laser-related problems.

    • After completing this course students will be able to program any graphic using cypcut cutting software, as well as knowing tips and tricks used by professional CNC machinists to get the results they need.

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Suitable for individuals interested in pursuing a career in engineering and technology
Provides a comprehensive study of CNC Metal Cutting and Laser Machine
Covers a range of topics, including machine configurations, controls, specifications, and capabilities
Enables learners to apply theory to practical settings through interactive demonstrations
Benefits individuals involved in programming, nesting, and operating CNC Fiber Laser Cutting Machines
Intended for customer maintenance personnel to enhance their understanding of machine and laser system functioning

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in CNC LASER CUTTING - Learn CNC Programming From Beginning with these activities:
Form a study group with fellow students
Enhance learning through collaboration and discussion with peers.
Show steps
  • Reach out to fellow students and propose forming a study group.
  • Set up regular meetings for discussion and collaboration.
Watch tutorials on laser cutting theory and techniques
Deepen understanding of laser cutting theory and techniques through guided tutorials.
Show steps
  • Search for tutorials on laser cutting theory and techniques.
  • Watch the selected tutorials and take notes.
Attend industry events focused on laser cutting
Connect with professionals and learn about the latest advancements in laser cutting.
Show steps
  • Research and identify industry events focused on laser cutting.
  • Register and attend the selected events.
Four other activities
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Show all seven activities
Practice modifying cutting parameters
Improve proficiency in modifying cutting parameters to optimize laser cutting performance.
Show steps
  • Set up a test environment for laser cutting.
  • Modify cutting parameters and observe the results.
Participate in online laser cutting challenges or competitions
Test skills and knowledge in laser cutting through participation in online challenges.
Show steps
  • Research and identify online laser cutting challenges or competitions.
  • Register and participate in the selected challenges.
Create a visual guide to laser cutting
Enhance understanding of laser cutting by creating a visual guide that summarizes key concepts.
Show steps
  • Gather information and resources on laser cutting.
  • Lay out the structure and content of the visual guide.
  • Develop visual representations and explanations for key concepts.
  • Proofread and finalize the visual guide.
Build a miniature laser cutting project
Gain practical experience in laser cutting by building a small project.
Show steps
  • Design a simple object using CAD software.
  • Prepare the laser cutting machine and materials.
  • Cut the object using the laser cutter.
  • Assemble or finish the project.

Career center

Learners who complete CNC LASER CUTTING - Learn CNC Programming From Beginning will develop knowledge and skills that may be useful to these careers:
CNC Programmer
A CNC programmer is responsible for creating and modifying CNC programs that control the operation of CNC machines. This course can serve as a valuable foundation for individuals aspiring to become CNC programmers. The comprehensive study of CNC metal cutting, laser machines, nesting, and programming will provide the necessary skills to develop effective CNC programs. Through interactive demonstrations and practical exercises, students will gain hands-on experience in programming CNC laser cutting machines, enabling them to excel in this role.
CNC Machinist
A CNC machinist operates and maintains CNC machines to produce precision parts and components. This course is highly relevant for individuals seeking to enter this field. It covers the fundamental principles of CNC operations, part design, and laser cutting, which are essential for a successful career as a CNC machinist. The course's emphasis on practical applications, machine configurations, and cutting techniques will provide a solid foundation for understanding the intricacies of CNC machining.
CNC Operator
A CNC operator is the person responsible for the operation of CNC machines to manufacture components according to specifications. The course's emphasis on CNC programming, laser cutting principles, machine configurations, and safety protocols will provide the necessary knowledge and skills to succeed in this role. Students will learn how to safely operate the machine, manage part programs, apply appropriate cutting techniques, modify cutting parameters, perform basic maintenance duties, and produce high-quality cut parts. By gaining hands-on experience and mastering the theoretical aspects of CNC laser cutting through this course, individuals can enhance their prospects of becoming proficient CNC operators.
Manufacturing Engineer
A manufacturing engineer designs, develops, and implements manufacturing processes and systems. The course's focus on CNC programming, laser cutting principles, and machine capabilities provides a strong foundation for individuals interested in pursuing a career as a manufacturing engineer. By gaining a comprehensive understanding of CNC laser cutting technology, students can contribute to optimizing manufacturing processes, improving product quality, and enhancing overall efficiency in the manufacturing industry.
Mechanical Engineer
A mechanical engineer designs, develops, and analyzes mechanical systems. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in manufacturing engineering within mechanical engineering. By understanding the capabilities and applications of CNC laser cutting, mechanical engineers can design and develop innovative products and systems that leverage this technology.
Industrial Engineer
An industrial engineer designs, improves, and installs integrated systems for managing industrial production and operations. The course's focus on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in manufacturing engineering within industrial engineering. By gaining knowledge of CNC laser cutting technology, industrial engineers can contribute to optimizing production processes, reducing costs, and improving overall efficiency in manufacturing environments.
Robotics Engineer
A robotics engineer designs, develops, and maintains robots and robotic systems. The course's emphasis on CNC programming and machine capabilities may be useful for individuals seeking to specialize in robotics manufacturing. By understanding the principles of CNC laser cutting and its applications in robotics, robotics engineers can develop and integrate robotic systems that leverage this technology for automated manufacturing processes.
Production Manager
A production manager plans, organizes, and controls production processes to ensure efficient and effective operations. The course's focus on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in manufacturing management. By gaining knowledge of CNC laser cutting technology and its applications, production managers can optimize production processes, improve resource allocation, and enhance overall productivity.
Quality Control Inspector
A quality control inspector ensures that products and services meet quality standards. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in quality control for manufacturing processes. By understanding the principles of CNC laser cutting and its applications, quality control inspectors can effectively evaluate and ensure the quality of products manufactured using this technology.
Sales Engineer
A sales engineer provides technical expertise and support to customers in the sale of products and services. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in sales engineering for manufacturing industries. By understanding the principles of CNC laser cutting and its applications, sales engineers can effectively demonstrate the capabilities and benefits of this technology to potential customers and drive sales.
Automation Engineer
An automation engineer designs, develops, and implements automated systems for various industries. The course's emphasis on CNC programming and machine capabilities may be useful for individuals seeking to specialize in manufacturing automation. By gaining knowledge of CNC laser cutting technology and its applications in automation, automation engineers can contribute to developing and implementing automated manufacturing systems that improve efficiency and productivity.
Project Engineer
A project engineer manages and coordinates engineering projects from inception to completion. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in project management for manufacturing industries. By understanding the principles of CNC laser cutting and its applications, project engineers can effectively plan, execute, and deliver projects that utilize this technology.
Research and Development Engineer
A research and development engineer designs, develops, and tests new products and technologies. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in research and development for manufacturing industries. By understanding the principles of CNC laser cutting and its applications, research and development engineers can contribute to the innovation and advancement of manufacturing technologies.
Maintenance Technician
A maintenance technician installs, maintains, and repairs machinery and equipment. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in maintaining CNC laser cutting machines. By understanding the principles of CNC laser cutting and its applications, maintenance technicians can effectively diagnose and resolve technical issues, ensuring optimal machine performance and minimizing downtime.
Technical Writer
A technical writer creates and maintains technical documentation, such as user manuals and training materials. The course's emphasis on CNC programming, laser cutting principles, and machine capabilities may be useful for individuals seeking to specialize in technical writing for manufacturing industries. By understanding the principles of CNC laser cutting and its applications, technical writers can effectively convey complex technical information to users and ensure clear and accurate documentation.

Reading list

We've selected 11 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in CNC LASER CUTTING - Learn CNC Programming From Beginning.
"CNC Programming Handbook" is an established reference work in the field and covers all aspects of CNC programming. Though this book is written with a focus on computer numerical control, it contains a wealth of information useful for the audience of the course, including on programming methods for CNC laser cutting.
"Laser Cutting Guidebook: Principles and Applications" practical book with a strong focus on industrial laser cutting, making it ideal for those seeking a practical supplement to the course.
"CNC Programming: Principles and Applications" comprehensive textbook on CNC programming applicable to a variety of industries. would serve as a useful reference for those seeking more in-depth theoretical knowledge on computer numerical control and CNC programming generally.
"Fiber Laser Cutting: Technology and Applications" provides a good introduction to the topic of fiber laser cutting for those looking for a general overview of the subject in addition to the lasers covered in the course.
"Nontraditional Machining Processes" useful resource to supplement the course, providing a strong technical overview of nontraditional machining processes.
"Precision Engineering: Theory and Practice" comprehensive and authoritative work on the foundational principles applicable to precision engineering. would be most effectively used for additional, in-depth independent reading on the subject.
"Industrial Robotics" is an excellent reference work on industrial robotics. It could be used to enhance the material in the course relating to the maintenance of machinery and automation.
"CAD/CAM: Theory and Practice" good foundational text suitable for independent reading for those wanting a deeper grounding in the theoretical foundations of computer-aided design and computer-aided manufacturing.
"Computer-Aided Manufacturing" provides a comprehensive and scholarly general treatment of computer-aided manufacturing systems. It would serve as a useful reference for those looking to broaden their knowledge of computer-aided manufacturing more generally.
"Robotics and Mechatronics" is an excellent and highly comprehensive reference on the topic suitable for academic and industrial settings. Though it has limited direct relevance to the course, it valuable reference for readers wishing to broaden their knowledge about automation more broadly.
"Advanced Control Systems" covers the theoretical fundamentals of control systems, including PID and PLC control, the concepts of which are only briefly touched on in the course. could be very useful for those wanting to expand their knowledge and understanding of control systems.

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