Services
CNC turning
CNC turning is an advanced subtractive manufacturing method where a computer-controlled lathe rotates a cylindrical workpiece at regulated speeds while precision cutting tools remove material to form exact dimensions. Driven by digital CAD/CAM models and executed through G-code, the process synchronizes tool motion, spindle velocity, and feed rates with micron-level accuracy.
Our Adaptive Systems.
Precision Turning Operations
⚙️ Sub-Spindle Turning
Enables secondary machining of the back side of parts without repositioning, maintaining concentricity and geometric accuracy.
⚙️ Live Tooling & Multi-Feature Machining
Simultaneous milling, drilling, and tapping operations on the rotating workpiece reduce setups and enhance feature complexity.
⚙️ Threading & Grooving
High-precision threading, external and internal grooves, and form features are achieved with optimized feed, spindle speed, and tool engagement.
⚙️ Taper & Profile Turning
Controlled axial and radial tool movement produces precise tapers, contoured profiles, and non-linear geometries.
Surface Quality & Validation
⚙️ Surface Finish Optimization
Fine turning parameters and toolpath adjustments minimize roughness (Ra) and prevent chatter, ensuring smooth functional surfaces.
⚙️ Deburring & Edge Conditioning
Automated and manual deburring techniques remove micro-burrs and maintain dimensional integrity at critical edges.
⚙️ Metrology & Dimensional Verification
CMM, laser scanning, and optical systems validate diameter, concentricity, taper, and thread specifications.
⚙️ Material & Performance Testing
Hardness checks, microstructure analysis, and stress evaluation confirm mechanical properties and ensure component reliability under operational loads.
CNC Turning
Our skilled professionals transform cylindrical stock into precision-engineered components using multi-axis turning operations. We perform threading, grooving, tapering, and profile creation with strict concentricity and surface finish control. Our advanced process integrates adaptive spindle control, live tooling, and high-speed rotation to achieve tight dimensional tolerances and superior mechanical integrity. Through our results-driven process and rigorous testing, we ensure reliable, high-performance components suitable for both prototyping and full-scale production runs.
Specialized Services
Precision Cutting – Our precision methods use laser and orbital cutting for burr-free edges and tight tolerance assemblies.
Complex Bending – We perform advanced simulation and feedback systems to ensure repeatable accuracy in high-stress applications.
End Forming – Our solutions include expansion, reduction, swaging, and flaring for engineered joining features.
Assembly & Welding – We execute high-strength TIG, MIG, and robotic welding with microstructural stability as part of our results-driven process.
Surface Engineering – Our process applies passivation, polishing, and coating treatments to enhance corrosion resistance and extend service life.
Engineering Dimensions
Geometric Control – Our precision methods use CNC systems to regulate bend radii, wall thinning, and neutral axis shifts. We ensure multi-plane configurations are supported without compromising structural integrity.
Metallurgical Integrity – We perform controlled heat treatments and forming processes to preserve grain structure, toughness, and fatigue resistance.
Structural Adaptability – Our solutions include end forming and welding to enable seamless integration into HVAC, automotive, and aerospace systems. Our results-driven process adapts components to complex design geometries with reliability.
Specialized Services
Precision Cutting – Our precision methods use laser and orbital cutting for burr-free edges and tight tolerance assemblies. We ensure every component meets exacting standards.
Complex Bending – We perform advanced simulation and feedback-controlled bending to achieve repeatable accuracy in high-stress applications.
End Forming – Our solutions include expansion, reduction, swaging, and flaring to create engineered joining features.
Assembly & Welding – We execute TIG, MIG, and robotic welding as part of our results-driven process, ensuring structural stability.
Surface Engineering – Our process applies passivation, polishing, and coating treatments to extend service life and maintain performance.
Address
Kinetix Fabworks Pvt Ltd.
Okkal Thuruthu.
Ernakulam – 683550.
Kerala, India.
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