Capacity - X : 350 Y : 250 Z : 265
Wire Eroding (Wire EDM)
Wire Eroding, or Wire Electrical Discharge Machining (Wire EDM), is a precise, non-contact process that uses a charged wire to cut intricate shapes in conductive materials.
It delivers high accuracy, no mechanical stress, and a smooth finish, making it ideal for complex components in aerospace, defence, and general precision engineering.
Key Benefits:
•Precision: Cuts intricate geometries with tight tolerances.
•No Deformation: Non-contact process prevents material stress.
•Versatile: Works with hard metals like titanium and tool steel.
•Smooth Finish: Produces burr-free surfaces, minimizing post-processing.
​Capacity - 480mm Swing x 1mtrs Between Centres, Twin Spindle with 80 Diameter Bar Feeding.
CNC Turning
CNC Turning is a precision machining process that uses computer-controlled lathes to rotate a workpiece while a cutting tool removes material to create cylindrical components.
It is ideal for producing shafts, pins, and threaded parts with high accuracy and consistency.
Key Benefits:
•High Precision: Ensures tight tolerances and repeatability.
•Efficiency: Automated for fast, cost-effective production.
•Versatility: Works with metals, plastics, and composites.
•Smooth Finishes: Reduces the need for additional processing.
CNC Turning is widely used in aerospace, automotive, medical, and general engineering industries
Capacity - X : 1100 Y : 610 Z : 610, 10 Pallet, 24 Hour Machining
CNC Milling
CNC Milling is a computer-controlled machining process that uses rotating cutting tools to remove material from a stationary workpiece, creating complex shapes and precise components.
It is ideal for flat, contoured, and multi-axis parts in various industries.
Key Benefits:
•High Precision: Produces intricate and detailed components.
•Versatility: Works with metals, plastics, and composites.
•Efficiency: Automated for consistent, high-speed production.
•Multi-Axis Capability: Enables complex 3D machining.
CNC Milling is widely used in aerospace, automotive, medical, and precision engineering sectors.
Volumetric Capacity - X : 1100 Y : 1100 Z : 610
Inspection
Vanham Engineering employs precision inspection methods to ensure all components meet strict tolerances and quality standards.
These techniques verify dimensions, surface finish, and overall accuracy.
Key Inspection Methods:
•Faro Arm Measurement: A portable device providing high-precision 3D measurements for complex parts.
•Extol 370 CMM: Robust, accurate and reliable, the Extol CMM is the perfect solution to automatically verify part quality for critical components.
•First Article Inspection (FAI/FAIR): Ensures initial parts meet design specifications before full production.
•Traditional Methods: Includes calliper's, micrometres, gauges, and height indicators for manual inspection.
These methods guarantee consistency, precision, and compliance across industries such as aerospace, automotive, and precision engineering.