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Heriot-Watt University (HWU) led the development of a supportive infrastructure for the sustainable advancement of Technical Textiles (the fastest growing textiles sector in an industry worth $25bn globally and £3bn per year to the UK economy). 452 companies have had their products or processes created or improved. (e.g. patents awarded, new companies established and research and development sustained). The research transformed how Technical Textiles were understood as marketable products in their own right; from purely functional entities to materials that operate at the interface of design and technology. This enabled the development of new technologies that enhance wellbeing and quality of life, e.g. in the health and defence sectors.
This case study focuses on three Science/Art collaborations Primitive Streak, Wonderland and Catalytic Clothing (CatClo) undertaken since 1997 by Professor Helen Storey. Storey's work is genuinely collaborative, spanning arts, sciences and new technology fields, and produces projects which illuminate aspects of science and well-being in ways that engage with the public, communicate complicated concepts, and demonstrate the potential of science in an innovative and accessible manner. The projects have reached huge audiences and have made a significant contribution to raising public awareness of science and issues faced by society.
Professor Stephen Russell's fundamental and applied research on the formation, structure and properties of nonwoven fabrics has directly led to the creation and continued success of the Nonwovens Innovation and Research Institute (NIRI) Ltd a University of Leeds spin-out company. Formed in 2005 to exploit Russell's research, NIRI has grown annual sales revenue to ~£1 million supplying products and services that have enabled many medium-sized enterprises (SMEs) and global public limited companies (PLCs) to launch improved or new products, growing their market share and positively impacting consumers. Additionally, the research has enabled NIRI to independently establish and co-fund new commercial joint ventures that have resulted in the development of new IP (intellectual property)-protected products for improving global health and security. NIRI has grown its workforce to twenty (mainly University graduates) and has been profitable from the first year of trading.
Ulster research groups in the fields of composites and metal forming have had a long-term and fruitful engagement with major industries such as Caterpillar (FG Wilson), Rolls Royce and Bombardier. Since 2008 this has resulted in new patented technologies, significant cost/performance improvement in manufacturing, the delivery of on-site industrial training, the formation of spin-out companies and the establishment of the £6m N. Ireland Advanced Composites and Engineering Centre with currently 10 member companies. In particular, Ulster research has been at the heart of patented Bombardier processes which underpinned their strategic entry into the commercial narrow body aircraft market which is worth $43billion per annum globally. The C Series wing programme, which utilises composites, employs 800 people directly in Belfast at full production, with a further 2,000 employed in the supply chain. As of today, Bombardier has global orders and commitments for 388 C Series aircraft, which include firm orders for 177 of the new airliner.
NIBEC connected health related research over the past 20 years has led to three high value spin- out companies. Their success is based on exploitation of over 35 NIBEC patents in medical sensors and electro-stimulation devices. Together these companies are currently valued at almost £100m, employ over 150 skilled people and have engineered medical innovations that have had global beneficial impact on health costs and patients' lives over these past four years. Our research is closely linked with international partners, commercial and clinical, has impacted local government policy through our leadership of the European Connected Health Alliance and has resulted in the £5m industry-focussed Connected Health Innovation Centre established at NIBEC.
Based at Birkbeck between July 2009 and June 2013 and undertaken in partnership with Instituto de Lengua y Cultura Aymara in Bolivia, the AHRC funded research project `Weaving Communities of Practice' has made a substantial impact on cultural life by creating new systems of cataloguing and digitising collections of Andean textiles and developing a digital, online database to manage complex visual information. Two museums in the UK and 10 in Latin America (Bolivia, Chile and Peru) have directly benefited from the project both in the development of the database and in the training provided; rural communities in Bolivia have also benefited from the recognition and recovery of their traditional craft.