Wykaz publikacji wybranego autora

Jakub Stec, dr inż.

asystent

Wydział Inżynierii Materiałowej i Ceramiki
WIMiC-kfmp, Katedra Fizykochemii i Modelowania Procesów


  • 2020

    [dyscyplina 1] dziedzina nauk inżynieryjno-technicznych / inżynieria materiałowa


Identyfikatory Autora Informacje o Autorze w systemach zewnętrznych

ORCID: 0000-0001-8343-9198 orcid iD

ResearcherID: Y-3043-2018

Scopus: 57201736823

PBN: 5e70938b878c28a0473ac7d3

OPI Nauka Polska

System Informacyjny AGH (SkOs)




1
  • 3D multi-ion corrosion model in hierarchically structured cementitious materials obtained from nano-XCT data
2
  • Calculations of micropore carbon materials permeability based on stead-state pore-scale flow in 3D microstructure created based on X-ray computed tomography
3
  • Calculations of micropore carbon materials permeability based on stead-state pore-scale flow in 3D microstructure created based on X-ray computed tomography
4
  • Calculations of micropore carbon materials permeability based on steady-state pore-scale flow in 3D microstructure created based on X-ray computed tomography
5
  • Characterization of materials' pores microstructure
6
  • Determination of transport and kinetic parameters in cementitious materials – inverse methods in corrosion of rebars in concrete
7
  • Effective and apparent diffusion coefficients of chloride ions and chloride binding kinetics parameters in mortars: non-stationary diffusion-reaction model and the inverse problem
8
  • Influence of wettability and initial metal composition on infiltration process of carbon refractory material: the evolutional model of molten metal infiltration into a 3D real microstructure acquired using X-ray computed tomography
9
  • Investigation of molten metal infiltration into micropore carbon refractory materials using X-ray computed tomography
10
  • Investigations of micropore carbon materials pore structure and permeability using X-ray computed tomography and numerical modelling
11
  • Ions transport in cementitious materials – 1D VS. 3D modeling
12
  • Modeling of isothermal flow of liquid metal through carbon materials of different microstructure
13
  • Modeling of liquid flow through porous materials of different microstructure
14
  • Modeling of transport processes in porous materials: from permeability to diffusivity
15
  • Modelowanie przepływu cieczy przez materiały porowate o różnej mikrostrukturze
16
  • Nano-XCT cementitious materials sub-microstructure influence on species transport and corrosion of reinforcement
17
  • Nano-XCT sub-microstructure of cementitious materials – influence of transport of ions and oxygen on corrosion of reinforcement
18
19
20
21
  • The influence of capillary pores on transport of chloride ions - numerical simulations in nano-XCT based 3D cementitious microstructures
22
  • The influence of capillary pores on transport of chloride ions – numerical simulations in nano-XCT based 3D cementitious microstructures