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Custom Machined Parts Built

Tailored CNC Components for Every Industry Need

Fabrication Solutions Tailored to Your Needs

We specialize in manufacturing custom machined parts that meet exact specifications and industry standards. Using advanced CNC technology, we produce components with tight tolerances, flawless finishes, and consistent quality—whether it’s for automotive, aerospace, medical, or industrial applications. From one-off prototypes to high-volume production, our solutions are engineered to perform and built to last.

Built to Spec. Delivered with Excellen

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Why Custom CNC Machined Parts

Industries requiring exact-fit assemblies, complex geometries, and repeatable performance depend on CNC custom machining. At Kinetix Fabworks, CAD/CAM integration, process simulation, and adaptive cutting parameters ensure minimized tool wear, consistent tolerances, and optimized cycle time. These practices provide high-quality prototypes, low-volume production, and series components with reliable mechanical and surface properties, reducing downstream assembly adjustments.

Precision Material Removal

Precision Material Removal

 

⚙️ Multi-Axis Milling
High-speed 3- to 5-axis milling produces prismatic, contoured, and intersecting geometries with optimized tool engagement and minimal thermal distortion.

⚙️ CNC Turning
Sub-spindle and live tooling allow concentric bores, complex threads, and precision profiles with strict surface roughness control (Ra).

⚙️ Swiss & Micro Machining
Sliding-headstock and sub-millimeter tooling generate high aspect-ratio micro-parts with burr-free edges for electronics, medical devices, and optical assemblies.

⚙️ Hybrid Machining
Combining milling, turning, and drilling operations in a single setup minimizes handling errors and ensures tight tolerances on critical features.

Surface Integrity & Validation

Surface Integrity & Validation

 

⚙️ Grinding & Secondary Finishing
Cylindrical and surface grinding, lapping, and polishing deliver sub-micron finishes, reduce stress concentrators, and improve fatigue resistance.

⚙️ Deburring & Edge Conditioning
Automated and mechanical deburring techniques remove micro-burrs and sharp edges, preserving geometry and preventing assembly interference.

⚙️ Metrology & Dimensional Verification
CMM, laser scanning, and optical measurement systems ensure parts meet specified tolerances and geometric requirements.

⚙️ Material Testing & Performance Validation
Hardness testing, microstructure analysis, and surface profilometry confirm mechanical properties and ensure parts perform under operational loads.

High-precision CNC machining transforms raw metallic and polymeric stock into bespoke components with strict dimensional fidelity. Multi-axis milling, turning, and micro-machining allow intricate geometries, threaded features, and functional cavities that conform to rigorous industrial and aerospace tolerances. Kinematic accuracy, toolpath optimization, and adaptive spindle control ensure micron-level precision while maintaining material integrity and surface finish.

5-axis machining is critical in industries requiring extreme dimensional tolerances and intricate surfaces, such as aerospace turbine blades, medical implants, automotive molds, and high-performance energy components.

Key advantages include:

  • Kinematic Freedom: Simultaneous movement across five axes for sculpting complex contours.

  • Geometric Integrity: Minimization of cumulative error by reducing multiple clamping operations.

  • Surface Excellence: Production of nano-smooth finishes through optimized tool engagement angles.

  • Process Efficiency: Consolidation of machining steps into a single continuous cycle.

  • Material Versatility: High-performance machining across metals, superalloys, composites, and polymers.

By merging computational intelligence with dynamic tool control, 5-axis machining represents the pinnacle of precision manufacturing, where complexity is engineered into reality with unmatched accuracy and efficiency.

 Specialized Services

  • Precision Cutting
    • Laser and orbital cutting for burr-free edges and tight tolerance assemblies

  • Complex Bending
    • Advanced simulation and feedback systems ensure repeatable accuracy in high-stress applications

  • End Forming
    • Techniques include expansion, reduction, swaging, and flaring for engineered joining features

  • Assembly & Welding
    • High-strength TIG, MIG, and robotic welding with microstructural stability

  • Surface Engineering
    • Passivation, polishing, and coating treatments for corrosion resistance and extended service life

 Engineering perceptions

  • Geometric Control
    • CNC systems regulate bend radii, wall thinning, and neutral axis shifts
    • Supports multi-plane configurations without structural compromise

  • Metallurgical Integrity
    • Heat treatments and forming parameters preserve grain structure, toughness, and fatigue resistance

  • Structural Adaptability
    • End forming and welding enable seamless integration into HVAC, automotive, and aerospace systems
    • Adapts to complex design geometries

Kinetix FabWorks —Where Engineering Meets Excellence.

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Kinetix Fabworks Pvt Ltd.
Okkal Thuruthu.
Ernakulam – 683550.
Kerala, India.

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