Engineering-Grade 3D Printing for Functional Parts
Prototypes, jigs & fixtures, enclosures and small-batch production — built with high-strength materials for serious industrial use.
3D Scanning
High-Precision 3D Scanning & Reverse Engineering
Precision Capture. Production-Ready Output.
We digitise physical components using high-resolution 3D scanning to generate accurate, manufacturable digital models for reverse engineering, redesign, and production of engineering-grade functional parts.
From complex geometries to discontinued parts, we transform real-world components into clean, engineering-grade CAD data ready for validation and manufacturing.
Materials
Our Materials
PAHT-CF
Tough & Impact-Resistant
Durable engineering-grade polymer with excellent impact strength, abrasion resistance, and fatigue performance.
PAHT-CF (Polyamide High-Temperature Carbon Fiber) is ideal for mechanical parts and functional assemblies.
Nylon
Carbon Fibre Reinforced Nylon
High-strength, high-stiffness engineering polymer designed for load-bearing and structural applications.
Nylon has excellent dimensional stability and heat resistance for functional industrial components.
PETG-CF
Rigid & Dimensionally Stable
Carbon fibre reinforced PETG (Polyethylene Terephthalate Glycol) offering increased stiffness and low shrinkage while maintaining strong layer adhesion and consistent print performance.
ASA
UV & Weather Resistant
Outdoor-ready polymer engineered for durability in exposed environments.
ASA (Acrylonitrile Styrene Acrylate) provides strong impact resistance with long-term UV stability.
TPU
Flexible & Shock Absorbing
Rubber-like material designed for elasticity, vibration damping, and impact absorption.
TPU (Thermoplastic Polyurethane) is ideal for seals, gaskets, and protective components.
CAPABILITIES
Engineering & Production Expertise
Functional Prototyping
Rapid validation of mechanical designs and assemblies.
Reverse Engineering
Scan-to-CAD workflows for reproduction and redesign.
Production Manufacturing
Batch fabrication using high-performance polymers.
Custom Tooling & Fixtures
Application-specific jigs and functional aids.
Engineering Consultation
Material selection and structural optimization guidance.
Post-Processing & Assembly
Multi-part integration and finishing for end-use parts.
Our Process
1. Consultation & Requirements
- We begin by understanding your application, performance requirements, tolerances, materials, and timeline. Whether you're developing a new product or replacing a legacy component, we define the technical scope before production begins.
2. Scan / CAD / Design
- Using high-resolution 3D scanning and precision CAD modelling, we recreate or refine your component. We optimise geometry for strength, manufacturability, and material performance before moving to fabrication.
3. Prototype & Testing
- Functional prototypes are produced for validation. Parts are tested for fitment, dimensional accuracy, and mechanical performance to ensure they meet real-world operating conditions.
4. Production & Delivery
- Once approved, we move to batch or scaled production using industrial-grade polymers. Parts are finished, assembled if required, and delivered ready for installation or integration.
ABOUT
Engineering-led additive manufacturing.
RegenLabs Engineering helps teams go from real-world parts to production-ready outputs — combining high-precision scanning, reverse engineering, and high-performance polymers.
From scan → CAD → prototype → production
Whether you’re replacing a legacy component, validating a design, or producing small-batch parts, we optimise for accuracy, fitment, strength, and repeatability.
- High-precision 3D scanning & inspection-ready geometry
- Reverse engineering and CAD redesign / optimisation
- Functional prototyping and production runs
- Material guidance for strength, heat, and chemical resistance
Who we help
Maintenance & repair teams, manufacturers, product developers, workshops, and commercial operators needing accurate reproduction and durable end-use parts.
