Sort by
Refine Your Search
-
Country
-
Program
-
Field
-
, including filtration, decontamination and manufacturing. For instance, resin must be injected into a porous mesh, without trapping air bubbles, to manufacture composite materials. Interfacial flows
-
industrial collaborators. A New Research Direction The project tackles a fascinating, evolving set of open problems, which are ripe for analysis. In modelling, this includes capturing dendritic growth
-
accurate predictions, but comprehensive data sets for reaction barriers of large molecules simply do not exist. Several recent works have tried to tackle the scarcity of data on reaction barriers by creating
-
other researchers and industry can use them, thus the models will be built upon established packages such as PyBaMM and Basilisk. Along with the models, parameterisation tools will be developed and will
-
/ . If this initial application succeeds, we invite you to apply for study formally. All candidates must fulfil the University of Warwick entry criteria and obtain an unconditional offer before commencing enrolment
-
) at the Advanced Steel Research Centre (ASRC) of WMG, the University of Warwick. This PhD studentship also offers a unique opportunity to work with the leading scientists at Tata Steel UK. Essential and Desirable
-
the University of Warwick is looking to appoint 1 full-time Marie Sklodowska-Curie Researchers, who is required to register as PhD students, to undertake independent and collaborative research in advanced control
-
Funding Source: Industry Eligibility: Available to eligible Home fee status and UK domicile EU students Start Date: Ongoing Course: MPhil/PhD Project Overview Rubbers are ubiquitous materials in
-
characterisation and modelling) at the Advanced Steel Research Centre (ASRC) of WMG, the University of Warwick. This PhD studentship also offers a unique opportunity to work with the leading scientists at Tata Steel
-
Solid-Supported Chalcogen Bonding Catalysis A 3.5 year fully-funded PhD position is available in the group of Dr Mark Greenhalgh at the University of Warwick, in collaboration with GoldenKeys High