Six core engineering disciplines — from concept sketching to flight-ready prototype.
Trivect Aerospace covers the full engineering development cycle in-house. From the first CAD sketch to a functional, tested prototype — we don't outsource the hard parts.
Each of our six service areas represents a genuine deep capability, backed by professional-grade tools, real hardware, and practical experience. Whether you need one service or all six, we bring the same level of rigour to every project.
Our aerospace engineering capability covers the full development lifecycle — from early feasibility and concept design through to aerodynamic modelling, flight system integration, and prototype testing.
We apply formal engineering methods to every aerospace project, whether that's a multi-rotor drone, a fixed-wing aircraft, or a model rocket. Every design decision is backed by data.
Professional CAD modelling using industry-standard software. We create detailed 3D models for aerospace components, mechanical assemblies, product visualisation, and engineering documentation.
Our models are not just for show — they're engineered for manufacture, simulation, and structural analysis. Every model is built to real-world tolerances and ready for prototyping.
Rapid prototyping and manufacturing of custom engineering components. We take designs from CAD to physical prototype quickly, enabling fast iteration and real-world testing before committing to final production.
Our 3D printing capability supports functional parts — not just visual models. We print aerospace components, brackets, housings, and test articles that are strong enough to actually use.
Custom electronic systems and PCB development for aerospace, drone, and embedded applications. We design circuits from scratch — schematic capture, PCB layout, component selection, and firmware integration.
Our electronics work is closely integrated with our mechanical and aerospace design capability, meaning we can design electronics that fit precisely into the structures we've built.
End-to-end drone development — from airframe design and structural analysis through electronics integration, flight controller configuration, and flight testing. We design drones that actually fly well, not just look good on a render.
Every drone we develop is built around a specific mission and performance requirement. We optimise for flight time, payload, stability, or range — whatever the project demands.
Full design and development of model rocket systems — from initial aerodynamic concept through structural analysis, electronics integration, recovery system design, and real launch testing.
We approach model rocketry with the same rigour as full-scale aerospace engineering. That means proper simulation, safety analysis, and documented test results for every project.
Every project — regardless of service type — goes through the same five-stage engineering methodology.
Define project objectives, conduct feasibility studies, analyse requirements, and establish engineering specifications.
CAD modelling, structural analysis, aerodynamic simulation, and PCB schematic layout.
PCB fabrication, component sourcing, firmware development, and bench-testing of all electronic subsystems.
3D printing of structural components, assembly of electronic and mechanical systems, and integration testing.
Flight testing, stress analysis, data collection, and iterative refinement until specifications are met.