Our founder grew up surrounded by mechanical parts and machines, fascinated by how raw material could be transformed into tools, components, and structures that power industries. Early on, he experimented with manual lathes and mills, but it was the world of Computer Numerical Control (CNC) that captured his imagination. The ability to combine software with hardware, design with manufacturing, and creativity with precision made CNC machining more than just a trade — it became a lifelong pursuit.
Like many innovators, he started small. From late nights studying G-code to building custom parts in a cramped workshop, the passion for machining kept growing. Over time, these early experiments expanded into research, writing, and teaching others. Along the way, he saw how many people — from students and engineers to small business owners — struggled to find clear, reliable knowledge about CNC. That’s when the idea of building a CNC machining knowledgebase took shape.
This platform is dedicated to sharing insights, tutorials, and technical expertise on CNC machining. From fundamentals of milling, turning, and programming to advanced strategies in automation and multi-axis machining, we aim to make CNC knowledge accessible to everyone whether you’re a beginner hobbyist or a seasoned machinist.
Learn essential CNC knowledge covering milling and turning basics, helping you build strong machining knowledge foundations.
Understand CNC knowledge for programming and G-code, simplifying complex coding into clear machining knowledge for learners.
Explore CNC knowledge in automation and multi-axis machining, applying innovative machining knowledge to modern production.
Discover CNC knowledge through real-world industrial uses, applying machining knowledge across aerospace, automotive, and medical sectors.
Access CNC knowledge via tutorials, guides, and resources designed to expand machining knowledge for students and professionals.
Gain CNC knowledge in quality control and process optimization, ensuring machining knowledge improves efficiency and accuracy.