Sort by
Refine Your Search
-
on previous research at Cranfield, which has demonstrated the benefits, the project investigates the impact of various porous structures on aerodynamic performance. Focus is placed on the entire incompressible
-
-engine performance. The research will focus on the measurement of massflow and velocity profiles using non-intrusive acoustic velocimetry. The project will include the development of a test rig and
-
expertise. We link fundamental materials research with manufacturing to develop novel technologies and improve the science base of manufacturing research. The Through-life Engineering Services (TES) Centre
-
, urban intelligence, and education, ultimately enhancing service delivery and quality. Cranfield University provides an ideal setting for this research, offering cutting-edge resources and expertise in
-
coating material knowledge of performance in extreme environment. Improve gas turbine material outcome. Although the research proposed here will focus on gas turbine, by changing the testing conditions
-
This fully-funded PhD research opportunity, supported by EPRSC Doctoral Landscape Awards (DLA) and Cranfield University offers a bursary of £22,000 per annum, covering full tuition fees. This PhD
-
. The research will include a combination of experimental and computational aspects and methods. The experimental work will focus on the analysis of a unique, state of the art dataset. The computational studies
-
with critical technical and professional skills, preparing them to lead the aviation sector’s transition toward sustainable hydrogen-based operations. While working on this exciting research project, you
-
We are pleased to announce PhD studentship project in “Advanced Composites Development for Hyper-velocity Impact Protection of Space Satellites Structures”. This is an exciting PhD research
-
image velocimetry approaches. This enhanced understanding is crucial for optimizing performance, and educate the design of future architectures. Additionally, the research accelerates the design and