Precision Engineering
Realized in Metal
Three integrated capability areas — each built around disciplined tolerance management, qualified manufacture, and documented quality control — covering the full range of complex industrial hardware your project may require.
Precision Engineering & Metal Matrix Tooling
Custom CNC machining, industrial mold design, and precision tooling manufacture — translating your engineering drawings into tight-tolerance metal components and production-ready tooling systems.
Precision engineering at the component level demands more than competent machining — it requires disciplined tolerance management, systematic first-article qualification, and full dimensional traceability back to the originating drawing revision. We receive your engineering drawings and functional specifications and translate them into verified metal components manufactured to the geometric requirements your application demands.
Our CNC machining operations cover multi-axis turning and milling for complex geometric profiles, tight-tolerance bored features, precision ground surfaces, and thread-critical interfaces. Standard achievable tolerance: ±0.005mm. High-precision geometries: ±0.001mm achievable on specialist setups. All critical features are verified against drawing callouts at first-article and in-process inspection stages using coordinate measuring equipment.
Tooling and mold work covers the full range from injection mold tooling — single-cavity and multi-cavity, hot-runner and cold-runner configurations — to die-casting dies, compression molds, and custom production fixtures. All tooling projects begin with a DFM (Design for Manufacturability) review before material is committed, eliminating avoidable manufacturability risks before the first operation.
Multi-Axis CNC Machining
3, 4, and 5-axis machining of complex profiles in tool steels, stainless grades (316L, 17-4PH), titanium, and engineering alloys. Surface finish Ra 0.4µm or better on critical mating surfaces.
Industrial Mold Design & Manufacture
Injection molds, die-casting dies, and compression tooling in P20, H13, and S136 tool steel grades. Mold flow analysis available prior to manufacture; T1 sample and mold trial with customer sign-off.
Jigs, Fixtures & Gauges
Custom workholding solutions, assembly fixtures, and functional gauges designed to your production process and inspection requirements. Fixture accuracy validated against the component's critical locating features.
First-Article Inspection (FAI)
Full dimensional verification using CMM against your 3D model and drawing callouts. FAI report with all ballooned dimensions, actual measured values, and measurement uncertainty statement — issued prior to production release.
Industrial Equipment & Systems Integration
Assembly, integration, and commissioning of standard and non-standard industrial mechanical systems — from automated production line components to complete bespoke equipment unit builds, with full FAT documentation.
Industrial projects frequently require mechanical systems that do not exist off the shelf — custom conveyor configurations, non-standard material handling units, bespoke functional test rigs, or specialized automated assembly cells. We design, source components for, assemble, and commission these systems as a single integrated delivery, with one accountable party across the full build scope.
Our integration work spans the complete build lifecycle: mechanical design review, component sourcing to specification, assembly, in-process fit and function checks, functional testing against agreed acceptance criteria, and final commissioning documentation. For electromechanical systems, we coordinate motor and drive selection, sensor and switch specification, and control panel assembly as part of the integrated unit build.
Standard industrial equipment — motors, gearboxes, pneumatic and hydraulic actuators, conveyors, pumps, and linear positioning systems — is sourced from qualified manufacturers to your specification, inspected on receipt under IQC protocols, and integrated into your project's mechanical scope. Where international brand equivalents are specified, we coordinate approved substitute sourcing supported by technical equivalence documentation and client sign-off.
Non-Standard Mechanical System Build
Engineering, assembly, and commissioning of bespoke industrial systems to your functional specification and site constraints — from single-station custom fixtures to multi-station automated handling lines.
Production Line Component Supply
Qualified sourcing, IQC inspection, and integration of standard industrial components — VFDs, servo drives, actuators, conveyors, and handling systems — to your production line design and control architecture.
Electromechanical Integration
Motor and VFD selection, sensor and proximity switch specification, control panel assembly coordination, and functional commissioning support for automated and semi-automated systems.
Factory Acceptance Testing (FAT)
Structured functional testing against formally agreed acceptance criteria. Witnessed FAT available at our facility or client-nominated location. Full FAT report issued prior to shipment.
Advanced Material Application & Component Fabrication
Structural fabrication and process engineering using high-performance composites, engineering-grade polymers, and special-purpose alloys — material selection and processing matched to your application's mechanical, thermal, and chemical service requirements.
Many industrial applications demand materials beyond standard steel and aluminium grades — where weight reduction, corrosion immunity, thermal stability at elevated operating temperatures, or specific tribological properties determine whether a component performs reliably in service. We specify, source with full material certification, and fabricate structural components in the advanced material families that modern precision industrial engineering depends on.
Carbon fibre reinforced polymer (CFRP) and glass fibre epoxy laminates are applied where high specific stiffness and low mass are required — structural brackets, enclosure panels, wear-resistant linear guides, and precision structural frames for automation equipment where thermal expansion must be minimized. Engineering polymers including PEEK, Delrin (POM-C), and glass-filled nylon (PA66-GF30) are CNC-machined to tight tolerances for bearing housings, valve seats, guide bushings, and components in direct chemical contact.
Special-purpose alloys — Inconel 625, Hastelloy C-276, duplex stainless 2205 (UNS S32205), and titanium Grade 5 (Ti-6Al-4V) — are machined and fabricated for high-temperature, high-pressure, and corrosive-service environments. Material certification to EN 10204 3.1 is standard on all special alloy orders; 3.2 third-party witnessed certification is available on request. Post-machining surface treatments are specified and managed as part of the component scope.
CFRP & Composite Fabrication
Layup, autoclave cure, and secondary precision machining of carbon fibre and glass fibre structural components for weight-critical and stiffness-critical applications. NDT (ultrasonic testing) available on structural laminates.
Engineering Polymer Machining
Precision CNC machining of PEEK, POM-C, PTFE, UHMW-PE, and PA66-GF30 to tight tolerances for tribological, chemical-resistance, and electrical isolation applications. Material lot traceability maintained.
Special Alloy Fabrication
Machining and fabrication of Inconel, Hastelloy, duplex stainless, and titanium alloys for corrosive and elevated-temperature service. Cutting parameters optimized per alloy; tool certification records maintained.
Surface Engineering
Hard anodising, electroless nickel plating, HVOF thermal spray, gas nitriding, PVD coating, and passivation — specified to functional surface requirements and managed as part of the component delivery scope.
Have an engineering requirement?
Share your drawings and specifications. We review every submission technically and respond within one business day.
Submit an Engineering RFP