Component Service Experience
We bring extensive experience in the design, analysis, and lifecycle evaluation of high-performance components across the aerospace, energy, automotive, and emerging technology sectors. Our engineers have supported both established OEMs and innovative start-ups through concept development, simulation, design optimisation, and certification.
Gas Turbine Components (Aerospace & Industrial Applications)
Our team has deep domain knowledge in rotating and static components used in high-performance turbine systems, supporting all stages from concept design and stress analysis to life assessment and in-service support.
Key component expertise includes:
Discs and Blisks – Burst and fatigue analysis, thermal-mechanical fatigue (TMF), and stress rupture life
Turbine and Compressor Blades – Modal and resonance evaluation, airfoil loading, and creep-fatigue interactions
Casings and Shrouds – Pressure containment, thermal distortion modelling, and flange/boss analysis
Mounting Structures – Dynamic load path design, vibration, and fatigue analysis
Aircraft-Engine Interfaces – Structural integration, thermal isolation, and load transfer between propulsion systems and airframes
Pressure Vessels and Cryogenic Pressure Vessels – Structural and thermal analysis of metallic and composite vessels designed for high-pressure or cryogenic storage, with compliance to ASME Section VIII and other industry standards
We combine FEA, CFD, material science, and certification-driven methodologies to ensure components meet FAA, EASA, ASME, and OEM-specific requirements.
Automotive Components and Chassis Design
Our team supports automotive clients with high-fidelity analysis and design of key structural and performance components—particularly those affecting handling, strength, and manufacturability.
Capabilities include:
Chassis Design and Analysis – Development of space frames and monocoque structures, crash simulation, and stiffness optimisation
Suspension Components – Fatigue life prediction, topology optimisation, and ride dynamics simulation
Wheel Design and Evaluation – Structural validation of cast, forged, and multi-piece wheels under cornering, impact, and fatigue loads
Thermal and NVH Assessment – CFD-driven thermal analysis and noise, vibration & harshness (NVH) studies for improved passenger and component performance
We apply both traditional and generative design methods to deliver lightweight, cost-effective, and manufacturable solutions tailored to motorsport, performance, and commercial vehicle platforms.
Aircraft Structures (Metallic and Composite)
We support the analysis and design of both primary and secondary aircraft structures, applying our knowledge of metallic and composite behavior to meet strength, fatigue, and certification requirements.
Expertise includes:
Wing and Fuselage Structures – Buckling analysis, static and fatigue sizing, and post-damage strength evaluations
Composite Skins, Ribs, and Joints – Ply-by-ply laminate modelling, delamination prediction, and bonded/joined interface behaviour
Landing Gear Attachments and Pylon Structures – Load path verification, local reinforcement, and stress concentration control
Systems Integration – Design for compatibility between airframe and embedded systems, payloads, or propulsion elements
We follow industry standards such as CS-25, MIL-HDBK, and BS 8118 to ensure compliance with structural integrity, airworthiness, and damage tolerance guidelines.
Start-Up and Innovation Support
We are proud to have supported several early-stage and start-up ventures, helping bring innovative, first-of-their-kind technologies to life. Our flexibility, cross-domain expertise, and hands-on engineering support make us an ideal partner for rapid development cycles.
From feasibility studies and design iteration to prototyping and investor-ready engineering packs, we enable start-ups to move fast—while maintaining robust technical quality and future-certification readiness.