Structural Technologies | Design Engineer

General Qualifications

• Graduate of an undergraduate program in Aircraft, Space, Aeronautics, Mechanical, Mechatronics, Materials Engineering, or related fields.
• Strong technical foundation in structural, mechanical, and aerodynamic design; experienced in component, assembly, and integrated system design of complex systems.
• Knowledge of material science and manufacturing processes for composite and metallic materials.

Familiar with Geometric Dimensioning & Tolerancing (GD&T).

• Capable of performing weight‑reduction, material‑saving, and aerodynamic‑improvement studies in designs.
• Able to monitor prototype‑production processes of designed parts and analyse test and measurement results.
• Understanding of aviation standards (e.g., FAA EASA, SAE) and quality requirements applicable to designs.
• Familiar with military standards such as MIL‑STD‑810, MIL‑STD‑461, MIL‑STD‑704.
• Proficient in CATIA V5 (or comparable 3‑D CAD software) and MS Office applications.
• Basic competence in at least one structural‑analysis tool (e.g., ANSYS, NX Nastran, or similar).
• Fluent in technical English; capable of preparing technical drawings, reports, and engineering documentation.
• Knowledge of PLM systems and engineering change‑management processes.
• Team‑oriented, flexible when required, and able to work collaboratively.- High sense of responsibility, strong analytical thinking, problem‑solving, and systematic work skills; able to thrive in a fast‑paced project environment.

We are looking for Design Engineers who meet these criteria to join our team.

 

Aerodynamic Design Engineer (Surface‑Integrated Systems Engineer)

Job Description

• Design fairings (flow‑control devices) that ensure optimal placement and positioning of antennas, radars, cameras, etc., on aircraft, preserving aerodynamic performance and improving flow characteristics.
• Perform mechanical design of pitot systems and angle‑of‑attack sensors.
• Design mounting and integration mechanisms for gimbal cameras and antenna systems, providing required motion range and vibration isolation.
• Identify, analyze, and develop mitigation solutions for icing risks in the designs.
• Conduct studies on radar cross‑section (RCS) and electromagnetic reflections to develop optimal designs that maximize aerodynamic‑electromagnetic performance of structures and components.
• Design radomes for antennas, taking RF transparency into account.
• Create camera‑box designs for aircraft platforms that include mechanical, thermal, and vibration analyses.

 

Preferred Additional Qualifications

• Master's degree in aerodynamic or structural design.
• Project experience with CFD analyses, wind‑tunnel testing, or aerodynamic optimization.
• Experience in the aerospace sector or defense industry.
• Active involvement in production, integration, or testing processes.

 

Structural Design Engineer

Job Description

• Design concept unmanned aerial vehicle (UAV) configurations based on operational, performance, and weight requirements, and create parametric surface models.
• Perform conceptual and detailed design of the UAV’s wing, tail, and fuselage components, including their sub‑components and interface definitions; select materials and determine manufacturing methods.
• Apply fundamental analysis methods to develop alternative structural designs that are lighter and stronger.
• Design the motor‑compartment layout and the interface that connects the UAV’s propulsion system to the airframe.
• Produce detailed designs of composite and metallic airframe structures that are compliant with Design for Manufacturing (DFM) and Design for Assembly (DFA) principles.
• Design the landing‑gear attachment interfaces for the UAV.
• Choose designs and materials that satisfy low‑visibility (stealth) requirements.
• Participate in prototype development activities and manage engineering change processes.
• Coordinate with subcontractors during the prototype phase and take an active role in procurement activities.
• Work collaboratively with mechanical design, wiring, structural manufacturing, and mechanical production teams to drive the entire product development cycle—from concept design through testing, production, and integration.

 

Mechanical Design Engineer (Avionics Systems)

Job Description

• Develop conceptual and detailed mechanical enclosure designs for electronic boards, sensor units, and control modules used in avionics systems, ensuring compliance with structural strength, sealing, serviceability, and manufacturability criteria.
• Perform vibration analyses (modal, harmonic, random) according to mission profiles; select isolators or design custom damping elements based on results and provide engineering support for laboratory testing.
• Create EMI/EMC‑compliant shielding, grounding, and insulation solutions to reduce electromagnetic interference; implement design updates as required by test outcomes.
• Design thermal management solutions that keep avionics units within safe temperature ranges throughout the mission, including mechanical interfaces and cooling components that enhance heat transfer.
• Design liquid‑cooling systems (pipes, manifolds, fittings) for high‑power‑density electronic units; conduct flow, pressure, and leak‑tightness analyses.
• Provide technical support for prototype production, sealing, flow, and temperature testing.
• Participate in mechanical integration, calibration, and environmental testing of aircraft sensor technologies; define sensor mounting geometries, isolation methods, and thermal‑control designs.
• Work in close coordination with electronics, structural, and thermal design teams to actively manage the entire mechanical development process—from concept through testing, production, and integration.