Polymer-clay nanocomposites for packaging - FlexPakRenew
Design and development of an innovative eco-efficient low-substrate flexible paper packaging from renewable resources to replace petroleum-based barrier films
Polymer-clay nanocomposites for packaging - Sustainpack
Innovation and sustainable development in the Fibre based packaging value chain
Fundamentals and Applications of HIPIMS EPSRC Grant
Understanding the fundamentals of HIPIMS plasma
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
Droplet Free Metal Ion Sources for PVD Coating production
To meet continuous demands for improved performance of the state of art hard coatings for tribological applications it is necessary to incorporate novel plasma assisted deposition technology into the present coating equipment providing better control over the energy of film forming species
Plasma Investigations of the HIPIMS Discharge Industrial funding
High Power Impulse Magnetron Sputtering (HIPIMS) has been developed on rotating PVD magnetron sources for uniform deposition on 200mm single wafer tools for barrier and seed layer deposition in through silicon vias (TSV)
Nanocomposite Films
Ti-Al-Si-N and Cr-Al-Si-N are high-temperature resistant coatings for cutting tool applications, created in collaboration with University of Freiberg, Germany
INNOVATIAL - Innovative processes and materials to synthesise knowledge-based ultra performance nanostructured PVD thin films on gamma Titanium Aluminides
This 'Innovatial' project focuses on the development of protective coatings for a new generation of lightweight titanium gamma aluminide materials that are in high demand in modern aircraft and cars
HIPIMS
Licensed process for the upscaling and implementation of High Power Impulse Magnetron Sputtering technology for the deposition of hard coatings
Raman Spectroscopy of PVD Coatings
From 1999-2002, the Raman Spectroscopy of PVD Coatings project aimed to develop a Raman based method of monitoring the quality of coatings produced by the Surface Engineering Group and monitor stress and wear induced changes in hard coatings