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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN
UNIVERSITIES AND INDUSTRY
Mikołaj Miśkiewicz Romanika Okraszewska
Łukasz Pyrzowski
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
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Assumptions
Effective cooperation between science and business sector is vital for the effective transfer of innovation which is considered as a major force in economic growth and the engine of development.
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Data
Source: Eurostad
Fig. 1. The share of expenditure on research and development in the GDP in 2013.
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
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Data
Source: H. Hollanders, N. Es-Sadki,2014, Innovation Union Scoreboard 2014, European Commission, Belgium
Fig. 2. EU Member States’ innovation performance
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
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The proposal
Innovativeness of the economy directly depends on expenditures on research and development.
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
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• 7th Framework Programme• Smart Development Operational
Programme (Program Operacyjny Inteligentny Rozwój - PO IR) for 2014-2020
• Regional Operational Programmes
• programs of government institutions supporting the development of innovation and R&D: NCBiR and PARP
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
Sources of funding
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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
Grant Footbridge The idea of a shell composite GFRP footbridge manufactured with use of infusion technology was developed in 2008 and reported in a form of research project submitted to Polish National Science and Development Agency in 2009. The project received financing in 2012 and is conducted under the acronym FOBRIDGE (PBS1/B2/6/2013, NCBiR).
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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
ConsortiumThe project is conducted by:
• Gdańsk University of Technology (leader),
• Military University of Technology
• ROMA Co ltd.
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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
General information• aim: low cost• technology: infusion – production of one element• structure: SHELL• material: sandwich composite - GFRP laminates with
foam core
Concept
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• centre line – section of the circle• U-shaped cross section• span of 16 m• width of 2.5 m• height of 1.3 m
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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
Architectural considerations
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COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
Summary
Combined advantages of each entity allowed to design the concept structure which will be constructed in near future and finally will hopefully change in a product available all over the world.
Acknowledgements
This work is supported by the National Centre for Research and Development (Poland) under Applied Research Programme project PBS1/B2/6/2013 realized in the period 2013-2015. This support is gratefully acknowledged.
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References
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
1) Wołodkiewicz-Donimirski Z. (2011). Innowacyjność polskiej gospodarki na tle międzynarodowym [w:] Zygierewicz A. red. (2011) Innowacyjność polskiej gospodarki. Studia BAS Nr 1(25) 2011, Biuro Analiz Sejmowych Kancelarii Sejmu, Warszawa.
2) Hollanders H., Es-Sadki N. (2014). Innovation Union Scoreboard 2014, European Commission, Belgium.
3) Davey T. at. All. (2011). Barriers and drivers in European university-business cooperation, European Commission, Brussels.
4) Klasztorny M., Chróścielewski J., Szurgott P., Romanowski R. (2014) Design and Numerical Testing of 5-Box GFRP Shell Footbridge. Footbridges: Past, Present & Future. London.
5) Chróścielewski J., Klasztorny M., Miśkiewicz M., Romanowski R., Wilde K. (2014) Innovative design of GFRP sandwich footbridge. Footbridges: Past, Present & Future. London.
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References
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
6) Chróścielewski J., Makowski J., Pietraszkiewicz W. (2004). Statics and dynamics of multilayered shell structures. Nonlinear theory and finite element method. (in polish) IPPT PAN, Warszawa.
7) Pyrzowski Ł. (2011) Viscoplastic damage analysis of structures subjected to impact loading. Plate and shell structures. LAP Lambert Academic Publishing, Germany.
8) Miskiewicz M. (2008). Test loadings of arch bridges. Current scientific challenges in concrete and steel structures and material technology /eds. W. Breit, W. Kurz, J. Schnell. - Kaiserslautern. pp. 57-64.
9) Wilde K., Miśkiewicz M., Chróścielewski J. (2013). SHM System of the Roof Structure of Sports Arena „Olivia”. Structural Health Monitoring 2013. - Tom II/ ed. Fu-Kuo Chang, Alfredo Guemes Lancaster, Pennsylvania 17602 U. S. A.: DEStech Publications, Inc. pp. 1745-1752.
10) Klasztorny M. (2002). The inverse problem in the reinforcement theory of fibrous composites, Composites Science & Technology, 62, 1. pp.107–119.
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Thank you for your attention
COMPOSITE FOOTBRIDGE - SYNERGY EFFECT IN COOPERATION BETWEEN UNIVERSITIES AND INDUSTRY
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