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.C. Xia, J.N. Zhou, H.L. Fan, F.N. Jin - Dynamic responses of underground arch structures subjected to conventional blast loads: Curvature effects , Archives of Civil and Mechanical Engineering, 13, 2013, pp. 322–333. [5] H.L. Chen, J. Zhou, H. Fan, F. Jin, Y. Xu, Y. Qiu - Dynamic responses of buried arch structure subjected to subsurface localized impulsive loading: Experimental study , International Journal of Impact Engineering 65, 2014, pp. 89-101. [6] P. Lardy - Sur une methode nouvelle de resolution du probleme des dalles restangulaires encastrees

References [1] Von-Karman T. (1929): The impact on seaplane floats during landing . – National Advisory Committee for Aeronautics: NACATN321. pp.2-8. [2] Wagner H. (1932): Landing of Sea Planes. – NACA Tech Memo. [3] Payne P.R. (1988): Design of high-speed boats. – Vol.1: Planing. Fishergate Inc. [4] Korobkin A.A. and Pokhnachov V.V. (1988): Initial stage of water impact . – Annual Review of Fluid Mechanics, vol.20. [5] Dobrovolskaya Z.N. (1969): On some problems of similarity flow of fluid with a free surface. – Journal of Fluid Mechanics, vol.3, pp.805

, delta v and CRASH3 stiffness in automobile collisions, SAE Technical Paper Series , no. 850437. 6. James, A., Neptune and James E. Flynn (1994) A Method for Determining Accident Specific Crush Stiffness Coefficients. SAE Transactions. 7. Jiang, T., Grzebieta, R. H., Rechnitzer, G., Richardson, S.; Zhao, X. L. (2003) Review of Car Frontal Stiffness Equations for Estimating Vehicle Impact Velocities. The 18th International Technical Conference on the Enhanced Safety of Vehicles Conference (ESV ), Nagoya. 8. Karapetkov, S. (2005) Auto Technical Expertise, Technical

: Wohlers Associates, Inc., 2017. [4] FALUDI, J., BAUMERS, M., MASKERY, I., HAGUE, R. 2017. Environmental Impacts of Selective Laser Melting: Do Printer, Powder, Or Power Dominate? J. Ind. Ecol. , 21 , pp. S144–S156. [5] PACHAURI, L. A., MEYER, R. K. 2014 Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change . Geneva, Switzerland: IPCC. [6] LIGON, S. C., LISKA, R., STAMPFL, J., GURR, M., MÜLHAUPT, R. 2017. Polymers for 3D Printing and Customized Additive

). Industrial Technologies and their Impact on Environment. (monograph). Ostrava, Czech Republic: VŠBTechnical University of Ostrava. FoMG. ISBN 978-80-248-2015-6. 362 p. (in Czech). Czech Government Decree No 146/2007 Coll., on emission limits and other conditions for an operation of stationary combustion sources of air pollution. Decree of the Czech Ministry of the Environment No 13/2009 Coll., on the determination of requirements for stationary source fuel quality as for the protection of the atmosphere. Bauer, F. (2007). Initial study - Biogas station Veřovice

References [1] Jurczak W., Impact and ballistic resistance of high-strength aluminium alloys intended for ship constructions, ‘Polish Maritime Research’, 2015, No. 1, pp. 11-16. [2] Jurczak W., Józwiak S., Świątek K., Wielowarstwowe osłony balistyczne dla morskich i lądowych środków transportu bojowego, ‘Logistyka’, 2010, No. 3, pp. 1683-1693 [Multi-layer ballistic shields for naval and offshore structures of means of combat transport - available in Polish]. [3] Jurczak W., Kyzioł L., Dynamic properties of 7xxx series aluminium alloys at large strain rates

complex behavior. Implementation of the FMLs into industry requires many experiments and analysis which confirm the proper responsiveness of the material with reference to mechanical properties. One of the most significant effects is a low-velocity impact event which affects structural integrity of composite material by complex failure mechanism relations. There are several parameters taken into account such as: energy dissipation mechanisms [ 2 , 3 , 4 ], static indentation and quasi-static load-deflection curve which are responsible for the response of investigated

wysokowytrzymałych ulepszanych cieplnie, Przegląd Spaw. - Weld. Technol. Rev., 90(4), (2018), 9–13. 5. Winczek J., Gawrońska E., Gucwa M., Sczygiol N., Theoretical and experimental investigation of temperature and phase transformation during SAW overlaying, Appl. Sci., 9(7), (2019), 1–17. 6. Hebert M., Rousseau C. E., Shukla A., Shock loading and drop weight impact response of glass reinforced polymer composites, Compos. Struct., 84(3), (2008), 199–208. 7. ASTM D7136/D7136M - 12, Standard Test Method for Measuring the Damage Resistance of a Fiber-Reinforced Polymer Matrix

References Andersson P., Garnier-Laplace J., Beresford N.A., Copplestone D., Howard J. B., Howe P., Oughton Deborah and Whitehouse P. (2009). Protection of the environment from ionising radiation in a regulatory context (protect): proposed numerical benchmark values. Journal of Environmental Radioactivity 100(2009), 1100-1108. Bond A., Bussell M., O'Sullivan P., Palerm J. (2003). Environmental Impact Assessment and the Decommissioning of Nuclear Power Plants - a Review and Suggestion for a Best Practicable Approach. Environmental Impact Assessment Review 23, (3

blast load steel beam. Juniorstav 2014, VUT Brno, ISBN 978-80-214-4851-3. [8] Figuli L., Jangl Š., Papán D.: Modelling and Testing of Blast Effect On the Structures . IOP Conference Series: Earth and Environmental Science, 44. (5), 052051 https://doi.org/10.1088/1755-1315/44/5/052051 [9] Lu G., Yu T.: Energy absorption of structures and materials. Woodhead Publishing Limited, Cambridge, England 2000. [10] Qiao P., Yang M., Bobaru F.: Impact Mechanics and High-Energy Absorbing Materials: Review. Journal of Aerospace Engineering, 21/4. (2008) 235–248. https