Design & Analysis

Our design and analysis team aims to develop novel design methodologies and theories in order to simulate various problems based on the demands of automotive, aerospace and defence industries. The main focus is on key areas of fiber reinforced composites and additively manufactured metals. With our composite design expertise, we create high-quality design solutions for a wide range of industries and their applications. Our design engineers and researchers have both industrial and academic experience that is vital in supporting our customers to progress their ideas from conception through to manufactured prototypes.

In an industry-academia open innovation hub, working closely with our customers to understand their needs we provide solutions by the utilisation of composite materials and additive manufacturing in high-performance systems and structures. Based on the customer needs, starting from the materials, method of manufacture, geometry, performance and the associated production cost, we provide best appropriate solutions.

High Performance Computing Center (HPC) that is established considering the needs for computational mechanics, simulation-based engineering science, material science, big-data and image processing, data analytics, artificial intelligence, augmented and virtual reality, deep-learning, numerical methods, parallel high- performance programming and programming languages, optimization, user interfaces and human- computer-robot interaction, Internet-of-Things, and the applications requiring high computational power such as industry 4.0 practices.
The system will serve as a baseline for an ever-growing infrastructure hosting both CPUs and GPUs supported with InfiniBand network technology.


We provide simulation services to a wide variety of industrial problems including:

  • Computer-Aided-Design (CAD) solutions,

  • Detailed Structural Analysis,

  • Performance and failure analyses under various load conditions,

  • Behaviour analyses including fatigue, creep and environmental effects,

  • Novel modelling tools for a wide variety of problems including variable stiffness design of composite structures

  • Static design cases

  • Dynamic crash simulations.

A detailed report of the results including important conclusions of the simulations such as critical constraints, improvements on the design will be presented as the major output.  To sum up, the outputs include model development, simulation services, and analysis reports.


  • Automotive

  • Aerospace

  • Railway

  • Marine

  • Aeronautics and Astronautics

  • Defense industries

  • Energy


  • HP Z840 Workstation (x1)

  • Intel Xeon E5-2650v4 2.2 2400 12C 1stCPU

  • Intel Xeon E5-2650v4 2.2 2400 12C 2ndCPU

  • 256GB DDR4-2400 (16x16GB) 2CPU RegRAM


Service Name

(Test / Manufacturing Activity)

Sample Material Type


(Conditions, Exceptions, Tools, etc.)

National / International


Availability of Laboratory

Accreditation / Quality


Mechanical Design  

Fixture Design

Test Equipment

Design Impovement

Composite Structures

Manufacturing Drawings

Structural and Fatigue Analyses  

Linear Static

Advanced Non Linear Static

Fatigue Vibration

Transient Thermal



Random Vibration

Response Spectrum




Underwater Explosion


Motion Simulations   Mechanism Dynamics    
Acoustic Analysis  

Underwater Acoustic

Sonar Systems


Electromagnetic Isolation Calculations

Antenna Design

Metal Forming  

Sheet Metal Forming


Metal Cutting

Computational Fluid Dynamics  

Single Phase Flows

Multiphase Flows




Tolerance Analysis