Developments of a respiratory airflow measurement device
The aim of this study is to develop a device that can accurately measure respiration rate and respiratory airflow in a broad range of medical environments, such as surgeries, ambulances, A&E, sleep laboratories and operating theatres.
Courses
We offer staff training and development from low-cost, low-commitment events to bespoke courses designed and delivered to your specific needs
An Analysis of the Statistical Fatigue Behaviour of Single and Multi-Spot Welded Joints
Multi-spot welded joints are routinely used in the automotive and other industries to produce structurally critical components
PVD Plasma Characterisation of the ABS Plasma Environment
As part of an ongoing programme of fundamental studies, the plasma produced during the coating cycle is being studied in an attempt to link plasma properties to physical film properties
Injectable hydrogels for bone regeneration
We have developed a novel pNIPAM-DMAc-Laponite® hydrogel loaded with hydroxyapatite nanoparticles (HAPna), which can be maintained as a liquid ex vivo and be injected into the affected bone tissue site where body temperature triggers in situ gelation
Injectable hydrogels for IVD regeneration
Hydrogels are crosslinked polymers that contain large amounts of water. We have developed a novel hydrogel loaded with Mesenchymal Stem Cells (MSCs) which can be maintained as a liquid ex vivo and be injected into the affected tissue site where body temperature triggers in situ gelation.
Visual Control
Visual controls are a key lean manufacturing principle. Visual displays and controls help keep things running as efficiently as they were designed to run and sharing information through visual tools helps keep production running smoothly and safely
Injectable hydrogels for IVD regeneration
Hydrogels are crosslinked polymers that contain large amounts of water. We have developed a novel hydrogel loaded with Mesenchymal Stem Cells (MSCs) which can be maintained as a liquid ex vivo and be injected into the affected tissue site where body temperature triggers in situ gelation.
Injectable hydrogels for bone regeneration
We have developed a novel pNIPAM-DMAc-Laponite® hydrogel loaded with hydroxyapatite nanoparticles (HAPna), which can be maintained as a liquid ex vivo and be injected into the affected bone tissue site where body temperature triggers in situ gelation
Renewable energy
Our services in the renewable energy sector in feasibility studies, performance monitoring, efficiency assessment and much more