Tooling and prototypes engineered for the production floor
Industrial tooling and functional prototypes in advanced carbon fibre composites: CNC soft jaws, conformal assembly fixtures, robotic EOAT and validated shop-floor components. Full-cycle support from DfAM engineering through prototyping to serial delivery.
Prototyping, production & engineering
Rapid Prototyping
From CAD file to a functional PA6-CF or PETG-CF prototype in under 24 hours. Structural composites with real-world mechanical properties for direct field validation.
- Functional prototype in under 24 hours
- Structural composites with production-representative mechanical properties
- Rapid design–test–refine iteration cycles within a single working day
Serial Production
Batch production from 10 to over 10,000 parts with controlled repeatability, full material traceability and structured quality documentation per delivery.
- Batch volumes from 10 to 10,000+ units with repeatable quality
- Full traceability: material lot, machine, build parameters and environmental conditions
- Statistical Process Control (SPC) monitoring on request
Engineering & DfAM
Design for Additive Manufacturing consultancy: topology optimisation, part consolidation, material selection and structural validation. Each component is re-engineered to maximise additive process performance.
- Convert CNC-optimised models to FDM-ready geometries
- Multi-component assembly consolidation into single printed parts
- Functional material selection based on mechanical and environmental requirements
Specialised production floor tooling
CNC soft jaws, conformal fixtures and robotic EOAT. Application-specific tooling for machining, assembly and automation.
CNC Soft Jaws
Conformal soft jaws in PA6-CF for CNC lathes and milling centres. Complex organic clamping geometries, resistance to cutting fluids and coolants, delivered operationally within 24 hours.
Learn more05Conformal Assembly Fixtures
Additively manufactured jigs and fixtures designed to exact part geometry. Measurably reduced cycle times, positioning errors and operator fatigue across assembly, welding and inspection operations.
Learn more06EOAT — Robotic End-of-Arm Tooling
End-of-arm tooling in carbon fibre composites with internal gyroid lattice structures. Over 40% mass reduction compared with solid aluminium, enabling faster cycle times and reduced servo motor wear.
- Over 40% mass reduction versus solid aluminium EOAT
- Internal gyroid lattice structures optimise stiffness-to-weight ratio
- Pneumatic grippers, vacuum plates, centering guides and pick-and-place modules
Free your machines from non-billable work
Upload the CAD file or describe the application. CNC soft jaws, assembly fixtures, EOAT or functional prototypes — we respond with material recommendation, lead time and cost within 24 hours.