AI Solutions for the Aerospace Industry
AI Solutions for the Aerospace Industry
FEHRMANN MaterialsX accelerates development through AI-driven simulations to identify optimal material solutions for the aerospace industry.
Challenges in the Aerospace Industry
Challenges in the Aerospace Industry
The aerospace industry faces increasing demands for safety, efficiency, and sustainability. Traditional development and certification processes for new materials are time-consuming and costly.
At the same time, rising cost pressure, climate goals, and complex supply chains drive the need for digital solutions. AI-driven simulations and validated knowledge databases drastically shorten development cycles, reduce costs, and accelerate material qualification.
As a result, companies gain early access to high-performance, lightweight, and affordable materials for the next generation of aerospace.
Adressing Challenges
Aerospace Applications
Aerospace Applications
Thermal Management
Materials developed through ML and AI optimize heat resistance, improve efficiency, reduce failures, and extend the lifespan of safety-critical components.
Lightweight Alloys
Virtual simulations accelerate the development of new aluminum and magnesium alloys, reducing weight whilst retaining strength.
Fuel Efficiency
Innovative materials reduce the overall weight of aircraft, increase range, lower fuel consumption, and significantly reduce operational costs.
Corrosion Resistance
MatGPT provides precise predictions on corrosion behavior, supports material selection, and extends the lifespan of safety-critical components.
Maintenance
AI-driven systems deliver instant answers to maintenance questions, reduce downtime, optimize spare parts management, and increase fleet availability.
Sustainable Materials
MatAIM supports the development of recyclable, lightweight materials that reduce CO₂ emissions, lower costs, and enable sustainable aerospace solutions.
Use Case Example
Use Case Example
How our innovations drive your success
Revolution for Aerospace
High-Strength, Heat-Resistant Aluminum Alloy
High-Strength, Heat-Resistant Aluminum Alloy
Replacing titanium with a high-strength aluminum alloy in aerospace applications used to take more than five years of development. With FEHRMANN MaterialsX, this process is reduced to just two months — combining AI-driven design with advanced simulations.
The result: significantly lower costs, faster project execution, and earlier access to lightweight, cost-efficient solutions for aerospace programs.
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Get in touch and discover how FEHRMANN MaterialsX accelerates development, certification, and sustainability of aerospace materials.