|
1. BASIC CNC TURNING - OKUMA
- CNC Basic Turning course introduces participants to the fundamentals of computer numerical control (CNC) turning operations. It covers essential concepts such as machine setup, tool selection, part programming using G-code, and basic safety practices. Through hands-on training, learners will gain practical experience operating CNC lathes and producing simple turned components. The course is ideal for beginners seeking foundational skills in precision machining and CNC technology.
|
3 |
1000 |
|
2. BASIC CNC MILLING
- Basic CNC Milling course provides an introduction to the principles and operation of CNC milling machines. Participants will learn about machine components, tooling, coordinate systems, and the fundamentals of G-code programming. Hands-on sessions will focus on setting up the mill, loading programs, and producing basic milled parts. The course is designed for beginners aiming to develop core skills in CNC milling and modern machining practices.
|
3 |
1000 |
|
3. ADVANCE CNC MILLING
- Advanced CNC Milling course is designed for participants with prior CNC experience who want to deepen their expertise in complex milling operations. The course covers advanced G-code programming, multi-axis machining, toolpath optimization, and high-speed machining techniques. Learners will work on precision parts, complex contours, and fixture setups through hands-on projects using advanced CNC milling machines. Ideal for skilled machinists and technicians, this course enhances productivity, accuracy, and problem-solving in modern CNC milling environments.
|
3 |
900 |
|
4. CAM PROGRAMMING & CAM EXECUTION
- CAM Programming & CAM Execution course provides comprehensive training in computer-aided manufacturing (CAM) for generating and executing toolpaths on CNC machines. Participants will learn to create CAM programs using industry-standard software, simulate machining operations, and optimize cutting strategies for efficiency and precision. The course includes hands-on practice in transferring CAM programs to CNC machines and executing them on actual workpieces. Ideal for CNC operators, machinists, and engineers, it bridges the gap between digital design and physical production.
|
3 |
1000 |
|
5. CNC GRINDING
- CNC Grinding course introduces the fundamentals of precision grinding using computer numerical control (CNC) machines. Participants will learn about grinding principles, machine components, wheel selection, and programming basics for surface and cylindrical grinding. Hands-on practice includes setup, operation, and producing precision-ground parts to specified tolerances. The course is ideal for beginners and operators looking to build foundational skills in CNC grinding applications.
|
3 |
1000 |
|
6. ENGINEERING GRAPHIC DESIGN USING AUTOCAD (2D)
- Engineering Graphic Design Using AutoCAD 2D course introduces participants to the fundamentals of technical drafting and 2D design using AutoCAD software. Learners will gain skills in creating precise engineering drawings, including orthographic projections, dimensioning, and annotations. The course emphasizes industry-standard practices for layout, layers, blocks, and plotting. Ideal for beginners, it equips participants with the essential tools to produce professional-quality 2D engineering graphics.
|
2 |
1200 |
|
7. ENGINEERING GRAPHIC DESIGN USING AUTOCAD (3D)
- Engineering Graphic Design Using AutoCAD 3D course introduces participants to three-dimensional modeling techniques for engineering applications. Learners will explore 3D drawing tools, solid modeling, surface creation, and visualization within the AutoCAD environment. The course emphasizes practical skills in creating, editing, and rendering 3D models for technical and design documentation. Designed for users with basic 2D AutoCAD knowledge, it provides a solid foundation in 3D design and engineering visualization.
|
2 |
1200 |
|
8. INTERMEDIATE MODELING USING SOLIDWORKS
- Intermediate Modeling Using SolidWorks course builds on basic 3D modeling skills to develop more complex and detailed part and assembly designs. Participants will learn advanced features such as lofts, sweeps, multi-body parts, configurations, and design tables. The course also covers best practices for parametric modeling, assembly constraints, and creating detailed technical drawings. Ideal for users with basic SolidWorks knowledge, this course enhances design efficiency and prepares learners for real-world engineering applications.
|
2 |
1200 |
|
9. ELECTRICAL DISCHARGED MACHINING-CNC EDM DIE SINKING
- CNC EDM Die Sinking course provides a foundational understanding of Electrical Discharge Machining (EDM) using CNC-controlled die sinking machines. Participants will learn the principles of spark erosion, electrode design, dielectric fluids, and CNC programming specific to die sinking operations. Practical sessions focus on machine setup, parameter selection, and producing precision cavities in hardened materials. The course is ideal for beginners aiming to gain hands-on experience and technical knowledge in CNC EDM die sinking processes.
|
2 |
1000 |
|
10. ELECTRICAL DISCHARGED MACHINING-CNC EDM WIRECUT
- CNC EDM Wire Cut course offers an introduction to the principles and operation of wire electrical discharge machining. Participants will learn about wire path programming, machine setup, workpiece fixturing, and control of machining parameters for precision cutting. Hands-on training emphasizes producing intricate shapes and fine tolerances in hard materials using CNC wire cut machines. The course is ideal for beginners and technicians seeking foundational skills in CNC wire EDM technology.
|
2 |
1000 |
