Scientific Expertise for Complex Industrial and Research Challenges
Delivering Laser Surface Engineering, CAE expertise, and Compressed Air Treatment Technology
Our multidisciplinary scientific team provides analytical expertise with prototyping capabilities, supporting industry and academy.
120+ peer-reviewed publications
30 years average experience
Laser Surface Engineering
Laser-driven micro- and nanostructuring of metals and composites to control functional surface properties.
- Nanosecond and femtosecond laser processing
- Periodic and quasi-periodic micro/nanostructures (LIPSS)
- Tunable wettability, optical response, hardness, and tribological behavior
- Integration with advanced nanomaterials (GO, rGO, MXenes, WS₂, MoS₂, hBN)
Result: adaptive friction, hydrophobic/hydrophilic, anti-glare, and bioactive surfaces.
Surface Microstructure Analysis
Quantitative characterization of laser-structured surfaces to understand performance, durability, and functional behavior.
- ISO 25178 surface metrology and topography
- Spectral surface characterization Fast Fourier Transform (FFT)
- Friction, lubrication regimes, and wear transitions
- Wettability, optical response, and coating-substrate interactions
Insights: how microstructure influences load transfer, durability, and surface-specific functionalities.
Multiscale Modelling & Digital Manufacturing
Engineering analysis and modelling across nano-to-global scales refining intricate physical dynamics.
- Multiscale modelling from nano, micro, macro to global level
- CAE modelling using COMSOL, Abaqus, and ANSYS
- CAM integration, CNC programming, and digital workflows
- AI-assisted modelling and Industry 4.0 manufacturing strategies
Result: optimized processing of complex and difficult-to-machine materials and components.
Compressed Air Treatment & Energy Efficient Dryer
Research of high-efficiency compressed air drying and filtration systems.
- Thermal and aerodynamic modeling of adsorption columns
- Microwave-assisted desiccant regeneration technologies
- Waveguide, chamber, and field distribution optimization
- Performance stability under controlled operating conditions
Outcome: energy-efficient drying systems with improved regeneration control.
Expertise Detailed Review
Our activities integrate surface engineering, computational modeling, and energy-efficient process design.
Smart Surfaces
Scalable surface functionality designe for wear resistance, corrosion protection, energy, and biomedical applications.
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Modelling & CAE
Multiphysics and finite element modeling using the well known and established CAE environments.
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Air Treatment
Improving heating uniformity and minimizing air losses in industrial compressed air infrastructure.
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