The automotive industry stands as one of the fastest-evolving sectors in engineering and technology.
From electric vehicle innovations to lightweight structural materials, and from aerodynamic optimization to smart production systems — every technological advance demands precise and data-driven engineering validation.
At the core of this transformation lie Computer-Aided Engineering (CAE), design optimization, and test–measurement validation.
Fetech Advanced Engineering integrates these elements into a unified process — offering end-to-end engineering services that cover design, analysis, testing, and custom manufacturing for OEMs, R&D centers, and suppliers.
In the automotive world, success depends not only on design aesthetics but also on durability, safety, and manufacturability.
Each component — from a chassis beam to a seat bracket — must be evaluated under real operating conditions before production begins.
Using an Ansys-based simulation infrastructure, Fetech performs:
Chassis and subframe analyses,
Suspension and steering component testing,
Body panel strength and deformation analyses,
Crash and fatigue simulations.
This enables design teams to identify weaknesses early, optimize materials, and achieve lighter yet stronger structures before physical prototyping.
Vehicles operate under continuous vibration and cyclic loading. Over time, this leads to fatigue cracks, joint loosening, and structural failures.
Fetech engineers perform vibration-based fatigue analyses to predict potential weak points, increase the component’s lifespan, and minimize maintenance costs.
Vehicle dynamics play a central role in performance and safety.
Using advanced simulation models, Fetech evaluates the chassis stiffness, mass distribution, and suspension geometry to optimize handling and ride comfort.
These studies ensure balanced driving behavior under braking, acceleration, and cornering conditions.
In modern manufacturing, sheet metal behavior determines overall production quality.
Fetech’s formability analyses identify potential wrinkling, tearing, and springback issues before tooling is built.
This optimization reduces scrap rates, shortens production time, and guarantees consistent part quality across batches.
Safety is one of the most demanding aspects of automotive design.
Fetech conducts:
Full vehicle crash and rollover analyses,
Seat and seatbelt anchorage simulations,
Occupant cabin deformation and energy absorption evaluations.
These simulations ensure vehicles meet international crash safety standards (Euro NCAP, FMVSS, ECE) before physical testing begins.
The chassis acts as the backbone of every vehicle.
Through static, dynamic, and fatigue simulations, Fetech verifies the stiffness and durability of chassis and underbody structures.
This allows engineers to maintain a high strength-to-weight ratio — a key factor in fuel efficiency and structural integrity.
Fetech’s engineering philosophy is based on integration and validation.
Each project is handled through a continuous cycle of design → analysis → testing → production.
Workflow Overview:
Design: CAD modeling and material selection from the concept stage.
Analysis: Static, dynamic, thermal, and crash simulations for performance validation.
Testing & Measurement: Correlation of simulation data through vibration, material, and crash testing.
Manufacturing: Development of test benches, fixtures, and prototype systems for production readiness.
This holistic workflow provides shorter development times, lower costs, and higher confidence in final designs.
Beyond engineering analysis, Fetech delivers custom manufacturing and test infrastructure for the automotive industry.
The company designs and produces:
Specialized test benches and measurement systems,
Prototype components and fixtures,
Calibration and endurance testing setups.
By combining design validation with production integration, Fetech ensures reliable, ready-to-produce solutions tailored to each client’s technical requirements.
Fetech operates with globally recognized CAE software and international standards to guarantee precision and reliability:
Simulation Tools:
Ansys Mechanical: Static, fatigue, and crash analyses
LS-DYNA: High-speed impact and deformation simulations
CivilFEM: Structural design and code-based verification
Ansys Fluent / CFD: Thermal and fluid-structure interaction analyses
Applicable Standards:
ISO 26262: Functional safety of road vehicles
Euro NCAP: Crash and occupant protection performance
VDA 231-106: Vibration durability testing for components
Fetech goes beyond traditional analysis services — acting as a strategic engineering partner.
By merging computational validation with design and production expertise, Fetech helps automotive manufacturers achieve:
Up to 30% reduction in development time,
Up to 40% decrease in prototyping costs,
Over 95% correlation between simulation and physical test results.
The automotive industry’s future depends on accurate simulation, intelligent design, and integrated validation.
With its advanced software, multidisciplinary expertise, and production-oriented engineering mindset,
Fetech Advanced Engineering delivers end-to-end solutions for safer, lighter, and more efficient vehicles.
Simulation is Our Expertise, and the Result is Your Strength.
🌐 www.fetech.com.tr
📩 info@fetech.com.tr