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Packaging is vital for sales and for product protection for all process industries, with the most widely used world-wide being board and film. For example, the grocery sector alone represents about 70% of the UK packaging market, with 10 million tonnes of packaging used each year.
Packaging materials are variable, which poses significant challenges in packaging machine design. A further challenge has arisen due to environmental legislation that requires the use of thinner, lighter weight materials. There is a need to meet these challenges since the size of the world market for packaging machinery is around €20bn, of which 2% is associated with the UK. Research at Bath has helped address these challenges in a number of inter-related areas:
Research has been undertaken in collaboration with industrial companies consisting mainly of SMEs, end users and research associations. Impact has been gained by embedding the results within the collaborating companies and by on-going use of the results by research associations.
Thin-film optical filter research at the University of Reading is a unique and enabling technology that permits astronomers and meteorologists to gather data leading to increased understanding of atmospheric and astrophysical phenomena. Infrared filters are the key optical components in many satellite telescopes for Earth observation, planetary research probes and infrared astronomy. They form the eyes of the instrument to separate light into wavebands in order to measure temperature, gas composition, water vapour, dust clouds and aerosols. This data is used to generate accurate atmospheric and environmental circulation models for global climate studies, and measure properties of the universe for stellar and planetary formation theories.
Research in the Mechanical Engineering Department has led to a series of experimental techniques for measuring the fundamental properties of lubricants in a scientific manner. These include measurement of the thickness, structure and properties of fluid and solid lubricating films, as well as the friction, fatigue and wear behaviour of lubricated surfaces.
Measuring instruments based upon these techniques have been commercialised by a spin-out company, PCS Instruments, which has now become the largest supplier of Tribology test equipment in the world. Over the period 2008-13 it had a turnover of £39.8M (£7.63M in 2012-13). The research has changed the way in which lubricants and lubricant additives are developed, with PCS test rigs in use in all the major lubricant and additive companies, as well as many University tribology research and National Standards laboratories. The techniques have enabled the development by industry of a new generation of high-efficiency lubricants for automotive applications.
An advanced plasma source based on novel engineering has been developed and proven in conjunction with Thin Film Solutions Ltd (TFSL). This source is retrofittable to existing electron- beam deposition systems and significantly improves the properties of thin films and advanced optical filters. TFSL has produced commercial products based on this source and has achieved sales to date of £2.3 million (letter from CEO of TFSL provided) as the new technology has been widely adopted in the optical filter industry.
The provision of professional analysis and advice has created an economic impact of $0.6M with AVX Ltd, a leading supplier of electronic components within the Kyocera Group. This information was pivotal to AVX Ltd retaining a major contract, for multi-layer ceramic capacitor (MLCC's) supply through to the automotive manufacturer Volkswagen Group. Our intervention addressed a reliability issue in the MLCCs and allowed them to improve processes and revise manufacture protocols. The impact drew on previous collaborative research with AVX Ltd and innovative methodologies for preparation of micro and nanoscale samples of materials in capacitors in academic research.
Research in atmospheric pressure (thermal) chemical vapour deposition (APCVD) at the University of Salford demonstrates the following impact:
Nanomaterials research at Ulster into materials including diamond-like carbon (DLC) ultra-thin films, carbon nanotubes (CNT), graphene, silicon and metal oxide nanoparticles has resulted in direct uptake by major industrial manufacturers and led to a directly quantifiable socio-economic impact via added value, improved efficiencies and cost-savings and has secured or increased the employment of skilled engineering staff. Examples of this impact since 2008 include ceramic nanoparticles research in partnership with AVX Ltd that resulted in improved production efficiency processes (up 20%) and higher quality devices (up 10%). [text removed for publication] Research into ultra-thin DLC films, funded by Seagate, has led to their incorporation into magnetic media. [text removed for publication] Our nanoparticle research has attracted a new spin-in company SiSaf Ltd. (2009) and by incorporating NIBEC's expertise in nanomaterials into its business plan, the company was able to grow to a valuation of £3.5m and employ 7 people in skilled technical positions.
Research undertaken by the University of Sheffield between 1999 and 2012 in functional oxide thin films was commercialised through knowledge transfer partnerships (KTP) with Ilika Technology. This directly led to over £1M in contracts and subsequent improvements in the commercial viability of the product base of blue-chip companies such as Toshiba, Toyota and Ceramtec and contributed to the increase in Ilika's turnover to ~£2M per annum and a growth in staff from 5 to 35 in 2012. In 2011, Ilika floated on the stock exchange with a valuation of ~£20M. The CEO has personally recognised the role Sheffield has played in establishing Ilika Technology as a limited company and in growing company revenue through contracts with leading multinationals.
A manufacturing process developed by Bradford researchers has revolutionised the way endodontists perform root canal treatments. When coated with a hydrophilic polymer, the highly-filled hygroscopic material has enabled UK company DRFP to develop SmartPoint — a new endodontic technique that dramatically reduces failure rates of root canal treatments from 11-30% over five years to approximately 1%, and gives lower levels of post-operative pain when compared with conventional techniques. The technology has won three awards for innovation and DRFP has expanded significantly, with a dedicated production facility and sales team offering visits to dentists to demonstrate the benefits of the technology.
Cranfield's research into ultra-precision machining and production science has led to new production machines, and to commercial availability of advanced optical surfaces, at a level of accuracy previously impossible. Cranfield's industrial clients have won contracts for advanced surface production worth >£5 million in under five years. Cranfield made: