Wojciech Tomasz Sołowski
Department of Civil Engineering

Wojciech Tomasz Sołowski

Assistant Professor

Kontakt information

Mobile phone
+358505925254
Full researcher profile
https://research.aalto.fi/...

Beskrivning

I specialise in computational simulations of soils, granular materials and constitutive modelling. My research focuses on:

1) advancing Material Point Method and applying it to large deformation problems, mainly in geotechnics

2) thermo-hydro-mechanical-chemical behaviour of unsaturated soils and associated coupling processes and implementation of those into numerical software (currently in-house developed Finite Element Code)

3) constitutive modelling of soils and granular materials, in particular influence of clay microstructure on its behaviour

I am a nominated member of International Society for Soil Mechanics and Geotechnical Engineering TC106 committee on unsaturated soil behaviour.

Publikationer

Department of Civil Engineering, Mineral Based Materials and Mechanics

A Convected Particle Least Square Interpolation (CPLS) Material Point Method

Publishing year: 2019 International Journal for Numerical Methods in Engineering
Mineral Based Materials and Mechanics, Department of Civil Engineering

Temporal and Null-space filter for the Material Point Method

Publishing year: 2019 International Journal for Numerical Methods in Engineering
Department of Civil Engineering, Mineral Based Materials and Mechanics

Simulation of swelling pressure evolution during infiltration in a bentonite block-pellet laboratory scale test

Publishing year: 2019 Japanese Geotechnical Society Special Publication
Mineral Based Materials and Mechanics, Department of Civil Engineering

Enhancing Constitutive Models for Soils: Adding the Capability to Model Nonlinear Small Strain in Shear

Publishing year: 2019 Advances in Civil Engineering
Department of Civil Engineering, Mineral Based Materials and Mechanics

Applications of the new thermo-hydro-mechanical-chemical coupled code 'Thebes'

Publishing year: 2019 Environmental Geotechnics
Mineral Based Materials and Mechanics, Department of Civil Engineering

Generalized Interpolation Material Point Method modelling of large deformation problems including strain-rate effects – Application to penetration and progressive failure problems

Publishing year: 2019 Computers and Geotechnics
Department of Civil Engineering, Mineral Based Materials and Mechanics

An improved moving least squares method for the Material Point Method

Publishing year: 2019 Proceedings of the 2nd International Conference on the Material Point Method for Modelling Soil-Water-Structure Interaction (MPM 2019)
Department of Civil Engineering, Mineral Based Materials and Mechanics

Continuum modelling of the granular flows in gaseous states using material point method

Publishing year: 2019 Proceedings of the 2nd International Conference on the Material Point Method for Modelling Soil-Water-Structure Interaction (MPM 2019)
Mineral Based Materials and Mechanics, Department of Civil Engineering

MPM Simulation of fine particle migration process within unsaturated soils

Publishing year: 2019 Proceedings of the 2nd International Conference on the Material Point Method for Modelling Soil-Water-Structure Interaction (MPM 2019)
Department of Civil Engineering, Mineral Based Materials and Mechanics

Moving least squares reconstruction for B-spline Material Point Method

Publishing year: 2019 Proceedings os the 2nd International Conference on the Material Point Method for Modelling Sil-Water-Structure Interaction