Engineering Design

Our team has experience in design, stress analysis, fatigue and damage tolerance assessment of metallic and composite aerostructures

EAS Aerospace Engineering has successfully finished design and stress analysis of the complete general aviation aircraft structures. In the area of the civil and regional aircraft we have been part of the larger teams working on projects such as Airbus A350-1000 and Bombardier C-Series.

Conceptual and detail design of metallic, composite and hybrid structures using state of the art CAD, PDM and PLM tools. Static (linear and non-linear) analysis using hand calcs and FEM methods (GFEM, IFEM, DFEM). Damage Tolerance & Durability Analysis, Residual Strength Analysis, Fail Safe Analysis.

Our experience in systems engineering includes: systems safety assessment (FHA, FFA, FTA, PSSA, SSA, FMEA), Requirements Based Engineering, DOORS databases, Particular Risk Analysis, Systems Segregation and Architecture.

In the area of systems installation we have experience in systems like: Electrical Systems Installation, Hydraulic Systems Installation, Bleed Air, Fuel Systems, Pitot Systems, Piston Engines. Members of our team gained experience in designing systems installation on brand new general aviation and civil aircraft and on the passenger to freighter conversions.

Offering CAD design of Aerodynamic surfaces and structures and aero dynamic analysis

We can offer CAD design of Aerodynamic surfaces and structures and aero dynamic analysis by conventional and CFD tools including airfoil design and selection. Additionally we offer flow and thermal analysis by computational tools and hand calc methods.

EAS Aerospace Engineering has experience in landing gear design

EAS Aerospace Engineering has experience in landing gear design including: general lay-out, attachment concepts, kinematics and detailed design studies, gear positioning and tyre sizing by checking several constraints (balance and stability, door clearance…), weight assessment and variation versus major drivers (design weight, attachment, kinematics), state of the art knowledge of materials, coatings, processes (Custom 465, Forcemate cold working design, Toughmet bushes design), fusible structure design for crash-worthiness and fuel tank intact retention.

We also have experience in ground loads calculation and reporting for the different combinations of landing gear, aircraft and manoeuvre with high level of accuracy, rigid and flexible multibody formulation, Geometry and mass and stiffness and damping information, advanced tyre modelling.

Definition and design of the drop tests of landing gears and complete aircraft.

EAS Aerospace Engineering takes tooling design very seriously, this is for us important part of what we do and part of our DNA.

What allows us to have good success in creating cost effective and working design is our experience in manufacturing gained in our tool manufacturing shop floor. We have experience in: Aircraft assembly tooling design (up to the size of the complete final assembly lines), Machining fixture design, Lifting slings, drilling and fettling tools, laser alignment tools, bootstraps, lifting cradles, zero-stress jacking tools subassembly tooling, layup moulds, etc.

EAS Aerospace Engineering also offers CNC programming and varication services. This capability covers high speed, multi-axis machining techniques, and machine tools, from machining cells to long bed multi-axis / multi-spindle machines.

EAS Aerospace Engineering provides dynamic and kinematic analysis that can evaluate the behaviour of mechanical systems.

We provide dynamic and kinematic analysis that can evaluate the behaviour of mechanical systems such as landing gear, control surfaces, doors, overhead bins, etc., prior to the availability of a physical prototype.