Mechanical Testing
Fatigue and Fracture Mechanics
Metals and Metal Composite Materials
Ceramics and Ceramic Composite Materials
Polymer Composites
Blade King
The aim of the project is to develop an innovative technology for manufacturing wind turbine blades based on the use of novel types of fibres and intensive use of automation.
OPTIMAT Blades. Reliable Optimal Use of Materials for Wind Turbine Rotor Blades
Design recommendations and improved reliability, incl. prediction of the residual strength and life to extend the life of the blade or avoid unexpected failures.
Development of wind energy technologies in Nepal: Materials science aspects
Purpose of the project is to explore the applicability of low-cost natural (wood) materials for the production of wind turbines to promote the electrification of dry and windy areas of Nepal . The project includes a comprehensive program of testing of mechanical and fatigue properties of timbers and coatings for wind turbine blades, computational micromechanical analysis of the properties- microstructure relationships of wood, as well as the development, installation and field testing of small wind turbines with wooden blades in Nepal.
Colt
Improvement of Service Life and Reliability of Cold Forging Tools with respect to Fatigue Damage due to Cyclic Plasticity.
Euclid 3.27 - Protection of light (armoured) vehicle against the threat of mines.
Investigate design solutions to enhance safety of the crew against the effects of mines. Consider solutions for upgrading existing vehicles as well as designs for future vehicles. Develop engineering tools and computational models for vehicle design.
sandiInspection and Repair of Sandwich Structures in Naval Ships.
Surveillance of Wind Turbine Blades - Basis for Remote Surveillance of the Health State of Wind Turbine BladesSensorersignaler målt på vingen under prøvning relateres til skadestilstanden, der i projektet bestemmes uafhængigt med andre NDT-metoder (ultralyd og røntgen).