Sort by
Refine Your Search
-
information, the results are dominated by the confined nature of the geometries that are used in the experiments: the channels have a large width-to-height ratio, making them essentially ‘2D’. This results in
-
these processes, inform targeted in vitro experiments, and help design better biomaterials and TE strategies that harness mechanics and geometry. As a PhD candidate, you will adopt and extend in-house homogenized
-
Innovation: Exploiting and developing NDT technologies tailored specifically for Dutch half-joint geometries. Data Analytics: Developing advanced analysis methods to identify and characterize local damage
-
and spatially complex nature of MRI signals. Each MRI examination involves multiple pulse sequences, with signal acquisition being sensitive to coil placement, sensor geometry, B0/B1 inhomogeneities
-
complex geometries. Experimentally characterising photopolymer curing behaviour, including reaction kinetics, shrinkage, thermal effects, and mechanical property evolution. Developing physics-based
-
the geometry and operating parameters of the system to achieve the project's ambitious targets: a 10 K temperature span, 100 W of cooling power, a 20% improvement in COP over conventional systems, and a 30
-
particle geometry in three dimensions using slice-and-view FIB-SEM analysis. Determining mineralogical and chemical properties (composition, zoning, crystallographic orientation) using complementary electron