From physical testing and simulation through software, automation, and program delivery, our capabilities are applied as one coordinated engagement and authorised under professional engineering oversight. Most projects draw on more than one of the domains below.
Each domain stands on its own, and most engagements combine several. Every deliverable is reviewed and authorised under the firm's professional engineering licence.
In-house mechanical and environmental testing, supplier qualification, and material characterization, with custom fixtures when standard configurations do not fit.
See detail ↓Finite element analysis, parametric 3D modelling, and design-for-manufacture review, with results checked for convergence and physical plausibility before interpretation.
See detail ↓Engineering-grade software and process automation, built by licensed professionals who understand both the code and the physical systems it controls.
See detail ↓Structured scoping, milestones, and review gates under PMP-certified delivery discipline, so scope, timeline, and deliverables are clear before work begins.
See detail ↓FMEA, design of experiments, root-cause investigation, and QC/QA program development aligned to ASTM, ISO, and CSA practice.
See detail ↓Laboratory design, equipment sourcing and procurement, and test-protocol development for teams building or expanding an analytical environment.
See detail ↓Tests are run, measured, and interpreted under one roof, so results arrive with full data files, curves, and a written summary, not just a number on a certificate.
Tensile, compression, bend, and peel under room and low-temperature conditions, with custom grip and fixture design for non-standard geometries.
Programmable multi-axis loading for high-cycle durability testing, with custom end-effectors available for complex geometries and assemblies.
Energy absorption and peak force measurement with failure mode characterization and custom fixture design for non-standard product forms.
Have a material, a part, or a failure you need answers on? Here is what we can put it through.
Repeatable, documented test procedures that validate performance and produce auditable results, interpreted in engineering context rather than handed back as raw numbers.
Test programs designed to confirm or challenge vendor material claims, with multi-specimen statistical reporting.
Flexural, tensile, and fatigue programs per D638, D695, D790, and D1938, among others.
When standard grips or spans do not fit the product, fixtures are designed and fabricated in-house.
Thermal cycling, UV and weathering, salt spray, and accelerated ageing protocol design and execution.
Material behaviour and failure-mode assessment under operating loads, in support of design-change decisions.
Root-cause failure investigation using fractography, physical evidence, and test data, correlated with simulation where useful.
Every report includes full raw data, processed curves, statistical summary, and a plain-language conclusions section.
Need to see it perform before you commit to building it? We model it first.
Rigorous computational analysis and three-dimensional modelling. Results are reviewed for convergence and physical plausibility before interpretation, and reported with applicable safety-factor references.
Linear static, thermal, and fully nonlinear ABAQUS analysis, including custom VUMAT user-material subroutines, plus SolidWorks simulation.
3D geometry built or imported, meshed, and prepared for analysis, supporting design iteration and FEA mesh generation.
Rapid prototyping and 3D-printed parts for fit, function, and design verification before committing to tooling.
Manufacturability and assembly considerations integrated directly with simulation findings.
Simulation used to reconstruct failure conditions and evaluate design changes before any material is cut.
Flow-stress and rheological characterization, hyperbolic-sine and power-law fitting, and processing maps for metals and composites.
Neural-network material models and optimization methods validated against physical test data, drawn from industry-grounded research.
A task your team repeats by hand every day? It can usually be automated.
Engineering-grade software and process automation. The underlying engineering logic is validated first, then code is developed iteratively and verified against known reference solutions.
Order intake, inventory, pricing, reporting, and billing automated end to end, with accounting and ERP integration.
Calculation tools, simulation post-processing, and hardware integration for laboratory and shop-floor environments.
Multi-agent platforms, retrieval-augmented workflows, and context-aware decision support built for real processes, not demonstrations.
Outputs compared to known reference solutions to confirm the automation produces physically and technically correct results.
Legacy code reviewed, documented, and migrated so a full team can operate and maintain it going forward.
Deliverables accompanied by documentation sufficient for the client team to operate and maintain the solution independently.
Need the work managed, not just performed? Clarity of scope is treated as an engineering obligation.
Disciplined execution under PMP-certified project management, paired with the quality systems that keep technical work auditable and defensible.
Every project opens with a technical scoping session, then proceeds against a work plan with defined milestones and review gates.
Interim deliverable reviews at agreed checkpoints and a communication cadence matched to the scale of the project.
FMEA, design of experiments, root-cause investigation, and QC/QA program development aligned to ASTM, ISO, and CSA practice.
Suppliers, fabricators, and third-party labs identified, briefed, and managed on the client's behalf.
SR&ED, IRAP, and NSERC proposal support, plus patent documentation experience behind granted filings.
Engineering deliverables reviewed and authorised under a Professional Engineer's seal, carrying legal standing that generic outputs cannot provide.
Finding an accredited lab, getting a quote, briefing them correctly, and following up on results takes more time than the test itself. That entire process can be handled end to end, with every report reviewed against the applicable standard before it reaches you. The same coordination extends to setting up a client's own analytical environment when that is the better long-term answer.
Testing, simulation, software, or full program delivery, scoped and managed under one accountable point of contact.