Description
Professional 3D CAD Design & Modelling Services
We deliver high-quality 3D design and modelling solutions using industry-leading software including NX Siemens, Autodesk Fusion 360, and SolidWorks. From concept sketches to fully detailed parametric models, our team handles complex geometries, assemblies, and design optimisation across a wide range of engineering disciplines.
Featured Projects
1. Design of a Prosthetic Limb
A complete parametric CAD model of a below-knee prosthetic limb was developed, incorporating anatomically informed socket geometry, modular pylon attachment, and a lightweight foot assembly. The design was optimised for 3D printability and structural performance, with material selection guided by FEA-backed load analysis.
2. Video Game Controller Holder — Ergonomic Product Design
A consumer product design project involving the conceptualisation and detailed CAD modelling of an ergonomic video game controller holder. The design focused on ease of manufacture, clean aesthetics, and compatibility with standard gaming peripherals — demonstrating our capability in industrial product design and rapid prototyping.
3. Quadcopter Frame Design Using Generative Design
Leveraging the generative design capabilities of Autodesk Fusion 360, we developed a structurally optimised quadcopter airframe. Load cases including motor thrust, landing impact, and torsional stresses were applied, with the algorithm producing a lightweight, topology-optimised geometry that reduced mass by over 30% compared to the conventional baseline design.
4. Modular Frame System for Emergency Shelter Applications
A scalable modular structural frame was designed for use as a rapidly deployable emergency shelter. The design featured interlocking extruded-aluminium-compatible joints, flat-pack shipping compatibility, and a modular bay system allowing flexible configurations. The CAD model was developed with manufacturing and field-assembly constraints in mind.
5. Generative Design Optimised Above-the-Knee Bone Implant
A biomedical engineering project involving the design of a structurally optimised above-the-knee (transfemoral) bone implant using generative design methodology. Bone-interface loading conditions, osseointegration surface requirements, and titanium alloy material properties were defined as constraints. The resulting geometry achieved an optimal balance between structural stiffness, stress distribution, and implant mass — suitable for additive manufacturing via selective laser melting (SLM).
What We Offer
- Parametric and surface modelling in NX Siemens, Fusion 360, and SolidWorks
- Assembly design, tolerance analysis, and BOM generation
- Generative design and topology optimisation
- Design for Manufacture (DFM) and Design for Additive Manufacturing (DFAM)
- Engineering drawings and GD&T documentation
- Biomedical, aerospace, consumer product, and structural design
Delivery: STEP, IGES, STL, native CAD formats. Contact us via WhatsApp or Fiverr for a tailored quote.
