Finite Element Analysis (FEA)

Example of Conducted Projects 

Simulation of Dicyclopentadiene (DCPD) Frontal Polymerization In Carbon Fiber (CF) Woven Composites Using ABAQUS Software

Optimising the Crashworthiness of Car Cashbox Using Genetic Algorithm

Optimising the Hip Joint Implant Within the Normal Daily Activities

Effect of the Micro Fibers on the Mechanical Properties of the Hybrid Composite (Onyx-Reinforced Short Fiber Such as Glass Fiber, Kevlar, Carbon Fiber, Etc.) Using Advanced Additive Manufacturing Method

Failure Analysis of thermoplastic Composite Pipe (TCP) Used in the Downline System of the Reservoir

Stress Analysis of Mini Turbine Wheel Applied in the Combined Heat and Power (CHP) System Using Nonlinear FEA

Parametric Study of the Jacket Platform Structure Based on the Thickness-Deflection Criterion (Abaqus/CAE)

Effect of Reducing the Articular Cartilage Thickness (Osteoarthritis Disease) On the Stress Response of the Femur and Meniscus

Effect of the Muscle’s Contraction on the Stress Behavior of the Femur Within the Single Support Stance

 Example of Conducted Projects 

Aerospace Industry:
Applications: Structural analysis of aircraft components, including wings, fuselage, and landing gear.

Objectives: Optimizing designs for weight reduction, aerodynamic efficiency, and overall structural integrity.

Formula 1 (F1) Car Design:
Applications: Analysis of chassis, suspension systems, and aerodynamics.

Objectives: Enhancing vehicle performance by optimizing structural components for stiffness, reducing weight, and improving aerodynamic efficiency.

Automotive Industry:
Applications: Structural analysis of vehicle components, crash simulations, and optimization of suspension systems.

Objectives: Improving safety, fuel efficiency, and overall performance through design optimization.

Civil Engineering:
Applications: Analysis of bridges, buildings, and other structures.

Objectives: Assessing structural integrity, predicting load-bearing capacities, and optimizing designs for safety and cost-effectiveness.

Biomechanics:
Applications: Simulation of stresses and strains on bones, implants, and other biological structures.

Objectives: Understanding the mechanical behavior of biological materials, designing medical implants, and predicting the impact of external forces on the human body.

Oil and Gas Industry:
Applications: Analysis of offshore structures, pipelines, and equipment.

Objectives: Ensuring the structural integrity of offshore platforms, optimizing designs for harsh environmental conditions, and predicting failure modes.