Capabilities

The methods behind our engineering.

A closer look at how we approach simulation, design, prototyping, and manufacturing — the analysis methods we rely on, not just the deliverables they produce.

Simulation & analysis

Numerical methods we apply

We rely on established, well-documented analysis methods rather than proprietary black-box processes — every result is traceable back to the physics and boundary conditions behind it.

Structural & stress analysis

Static and dynamic load analysis to predict deformation, stress concentration, and factor of safety across a component or assembly.

Thermal analysis

Heat transfer and thermal load modeling to understand how temperature affects material behavior and structural performance over time.

Flow & multiphase analysis

Fluid flow and multiphase behavior modeling to refine flow geometry and predict system behavior under varying operating conditions.

Design & documentation

How we design for manufacturability

GD&T-driven drawings

Every design is documented with Geometric Dimensioning and Tolerancing to remove ambiguity and keep design, quality, and shop-floor teams aligned on the same specification.

Reverse engineering

When starting from an existing part or legacy system, we reconstruct accurate, editable models to identify improvement opportunities without guesswork.

Design for manufacture (DFM)

Designs are reviewed against real manufacturing constraints early, so what looks good on screen is practical and cost-effective to actually build.

Risk & reliability methodologies

Structured methodologies including Value Analysis/Value Engineering and Failure Mode and Effects Analysis (design and process level) identify and mitigate risk before it reaches production.

Prototyping & manufacturing

From validated design to physical part

01

Metal prototyping

Tangible, functional prototypes for mechanical validation ahead of tooling investment.

02

3D printed models

Rapid, low-cost geometry validation early in the design cycle, before committing to metal fabrication.

03

In-house production

Precision sheet metal pressing, industrial fabrication, and machine automation, managed end-to-end at our own facility.

Our stance on tooling

Open, portable engineering practice

We deliberately build our simulation and design workflows around open, well-documented methods rather than proprietary, closed processes. This keeps our engineering transparent and our findings independently verifiable — every deliverable comes with the reasoning behind it, not just a result to trust blindly.

Curious how these methods apply to your project?

Ask our engineers