Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
" Tumor viscoelasticity as a central player in glioblastoma treatment - towards mechanopharmacology". As part of the experimental work, the tasks will include: Development of 3D hydrogels with controlled
-
Center entitled " Tumor viscoelasticity as a central player in glioblastoma treatment - towards mechanopharmacology". As part of the experimental work, the tasks will include: cell culture
-
learning strategies for various classes of materials. This PhD project will focus on dissipative material behaviors such as elastoplasticity, viscoelasticity, and related phenomena. Learning dissipative
-
is to validate original theoretical models of contact mechanics that take into account the effects of surface tension, adhesion, and viscoelasticity on nanoindentation measurements. These measurements
-
on comprehensive rheological characterisation, including the determination of viscoelastic properties through appropriate testing and modelling; Support in polymer characterisation using techniques such as (not
-
within the framework of project FLUIDNET: A Novel Deep Learning Architecture for Solving Viscoelastic Fluid Flows with reference 2024.13980.PEX, financed by national funds through FCT/MCTES, under
-
within the framework of project FLUIDNET: A Novel Deep Learning Architecture for Solving Viscoelastic Fluid Flows with reference 2024.13980.PEX, f, funded by national funds through FCT/MCTES, under
-
with estrogen deficiency. Mechanical testing, including uniaxial and biaxial tensile tests as well as rupture-oriented experiments, will enable characterization of hyperelastic and viscoelastic behaviors
-
, viscoelastic, and damage-informed formulations) under complex thermo-mechanical loading. Implementing and validating models using computational tools (e.g., numerical solvers, finite element frameworks
-
of hyperelasticity, viscoelasticity, stress softening (Mullins effect) and damage. These experimental data will feed advanced constitutive and fracture models, including phase-field approaches, to analyze tissue