BLADEsign
One-Click Wind Blade
Design Optimization
The fastest, most intuitive
way to design, optimize,
and certify wind blades
What is BLADEsign
BLADEsign is a purpose‑built software solution for wind‑turbine blade structural design and optimization. Created by VERMATIQ, it enables engineers to create, analyze, and support certification of composite rotor blades with high accuracy—reducing project lead times by up to 70% and improving consistency from concept through validation.
VERMATIQ both distributes BLADEsign to client teams and applies it within our consulting work. Developed specifically for blade structural engineering, the tool supports accurate composite layup definition, structural sizing, and advanced finite‑element analysis, providing clear insight into stiffness, strength, and long‑term behavior. Whether used directly by clients or by our engineers on their behalf, BLADEsign delivers robust, data‑driven evaluations across every development phase and streamlines preparation for certification.
How can BLADEsign optimize your BLADE?
Entirely Parametrization
Easily re-design and optimize blade with just a few clicks.
Rapid Iteration
Run multiple design scenarios in minutes and quickly compare their performance and price.
Error Reduction
Live user checks and intelligent validation tools catch potential issues early and prevent costly retrofits.
Integrated Workflow
Eliminate manual handoffs between tools. BLADEsign unites pre- and postprocessing as well as solver in a seamless environment.
AI-Driven Insights
Harness advanced INN models for smarter designs based on real-world physics and your requirements.
No FEA Expertise required
The input and validated output parameters are the design essential. Let BLADEsign handle the processing and solving model.
Compliance with the Certification
Meet the design requirements up to 70% faster, backed by rigorous German engineering standards.
BLADEsign Milestones
Blade Model
Building FE and analytical Models reliable and flexible to optimization.
Structural Response
How blades respond to wind loads and the environment is crucial for the design.
Optimization
Prioritizing on mass reduction and lowering costs through advanced iterative design.
Failure Modes
Ensuring the structural integrity and safety of every blade is our priority.
Elastic Properties
Accurate blade’s cross-sectional elasticity is crucial for ensuring safety and reliability.
AI-Powered Optimization
- Learns from physics and real-world data
- Direct parameter-to-performance mapping
- Fast, intelligent design suggestions with built-in validation