Ponuka spolupráce:
| 1 | Computational and multiscale mechanics Research and development of computational models and simulation tools for analysis of fracture, damage and multiphysics behaviour in advanced materials and structures. Collaboration can include creation of customized digital twins, predictive simulations and design optimization for industrial or engineering applications. |
| 2 | Multiphysical modelling of composite materials Development and validation of coupled thermo-mechanical, hygro-mechanical and electro-mechanical models for composite and layered construction materials. Cooperation may involve tailored modelling tasks, material design simulations or prediction of structural performance under complex loading. |
| 3 | Low-CO₂ binders and sustainable concrete technologies Research and optimization of multicomponent and low-carbon binder systems, including use of recycled aggregates, industrial by-products and admixtures to reduce environmental impact. Collaborative projects can address laboratory testing, life-cycle analysis and mix-design adaptation for specific industrial applications. |
| 4 | Heavy-weight and radiation-shielding concretes Design and testing of special concrete mixtures with enhanced density and radiation-shielding efficiency for nuclear, medical and industrial structures. Joint research can include experimental characterisation, optimization of mixture composition and performance validation under real operating conditions. |
| 5 | Heat, air and moisture (HAM) transfer in building envelopes Experimental and numerical investigation of coupled heat and moisture transport processes in porous building materials and structural components. Collaboration may focus on durability assessment, prediction of energy performance or moisture management strategies for sustainable buildings. |
| 6 | Optical and radiative properties of construction materials Research on optical, scattering and radiative characteristics of façade, glazing and coating materials, including modelling of daylighting and thermal behaviour. Cooperation can involve optical measurements, simulation of light transport and optimization of building components for energy efficiency and visual comfort. |
| 7 | Electromagnetic and non-destructive diagnostics Development and application of electromagnetic methods for characterisation of dispersive and heterogeneous building materials and non-destructive evaluation of structural integrity. Collaboration may include advanced sensing, laboratory diagnostics or adaptation of testing methods for industrial materials. |
| 8 | Self-healing concrete and post-damage restoration Research and development of self-healing concrete systems employing bacterial, encapsulated or immobilised agents to recover mechanical and durability properties after cracking or thermal damage. Cooperation may involve design, experimental testing, simulation and application of self-healing solutions for new or existing structures. |