Services
Engineering & CAD Design
3D Scanning & Reverse Engineering
3D Printing
Manufacturing Support
Engineering and CAD Design
From early concepts to production-ready assemblies, we develop precise 3D CAD models built for real-world manufacturing. Every design is approached with a clear understanding of materials, fabrication methods, and assembly requirements.
This service supports:
- Product Development
- Reverse Engineering
- Fixture and Tooling Creation
- Refinement of Existing Parts
- Technical Drawings and Manufacturing Ready Documentation
Whether starting from a rough concept or an existing reference model, the goal is always the same — a design that can be built efficiently and performs as intended.
Typical deliverables: 3D CAD models, STEP files, STL files, technical drawings, design revisions, prototype-ready files and manufacturing-ready documentation.
3D Scanning & Reverse Engineering
We capture real-world geometry and convert it into accurate, editable CAD data. This allows complex shapes, legacy components, or modified parts to be analyzed, recreated, or improved.
3D scanning is particularly useful when no drawings exist, when parts are discontinued, or when new components must interface precisely with existing geometry. Scan data can be used for:
- Full CAD reconstruction
- Designing Within Existing Geometry
- Deviation Analysis
- Quality Control
From automotive panels and engine bays to industrial components and architectural elements, reverse engineering enables informed design decisions based on real measurements — not assumptions.
Typical deliverables: 3D scan data, reverse-engineered CAD models, STEP files, STL files, deviation checks, fitment references and manufacturing-ready geometry when required.
Scanning Accuracy: 0.02mm
Volumetric Accuracy: 0.02mm + 0.08mm/m
3D Printing
Additive manufacturing supports rapid development and low-volume production using durable, functional materials.
3D printing is used to validate fitment, test assemblies, refine designs, and produce replacement components. It also plays an important role in developing composite molds, jigs, fixtures, and early-stage prototypes before committing to machining or fabrication.
By integrating printing directly into the design workflow, iterations can be tested quickly, reducing risk before moving to final production.
On-site FDM printing is available using either the traditional economical filaments or high-performance engineering materials with high thermal and chemical resistance. Multi-colour printing is also supported.
Manufacturing Support
Design does not end at the model. We provide engineering support and project management to ensure parts are properly prepared for production.
This includes creating complete drawing packages, structured BOMs, and manufacturing-ready documentation. We also assist with design-for-manufacturing considerations, supplier coordination, and fixture development to ensure accuracy and repeatability during production.
Beyond documentation and process support, we can also manage the sourcing and production of finished parts. Through established manufacturing partnerships, components can be produced using CNC machining, laser cutting, sheet metal fabrication, composite processes, or other appropriate methods. This allows clients to move from concept to delivered parts through a single point of contact.
Whether preparing components for production runs or coordinating final manufacturing, the objective is straightforward — deliver designs that translate cleanly into reliable, real-world parts.