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High-strength flowable mortar reinforced by steel fiber

; 21, 2007, pp. 1149-1154. Balaguru, P. N. & Shah, S. P.: Fiber Reinforced Cement Composites. 1992, McGraw-Hill Inc., New York. Banthia, N. & Sappakittipakorn, M.: Toughness enhancement in steel fiber reinforced concrete through fiber hybridization. Cem. & Conc. Research; 37, 2007, pp.1366-1372. Balendran, R. V., Zhou, F. P., Nadeem, A. & Leung, A. Y.: Influence of steel fibers on strength and ductility of normal and lightweight high-strength concrete. Building & Environment, 37, 2007, pp

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Static and Dynamic Responses of a Reinforced Concrete Beam Strengthened with Steel and Polypropylene Fibers

REFERENCES Soutsos, M. N. - Le T. T. – Lampropoulos, A. P. (2012) Flexural performance of fibre reinforced concrete made with steel and synthetic fibres . Construction and building materials, Vol. 36, pp. 704–710. Habel, K. – Gauvreau, P. (2008) Response of ultra-high performance fiber reinforced concrete (UHPFRC) to impact and static loading. Cement and Concrete Composites, Vol. 30, pp. 938-946. Hao, Y. – Hao, H. – Chen, G. (2016) Experimental investigation of the behaviour of spiral steel fibre reinforced concrete beams subjected to

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Comparison of Hexavalent Chromium Leaching Levels of Zeoliteand Slag-based Concretes

properties of concrete containing zeolite as a highly reactive natural pozzolan. Construction and Building Materials.35, 1023-1033. DOI: 10.1016/j.conbuildmat.2012.04.038. [6] Qasrawi H. (2014). The use of steel slag aggregate to enhance the mechanical properties of recycled aggregate concrete and retain the environment. Construction and Building Materials. 54, 298-304. DOI: 10.1016/j.conbuildmat.2013.12.063. [7] Dokou Z., Karagiorgi V., Karatzas G. P., Nikolaidis N. P. & Kalogerakis N. (2016). Large scale groundwater flow and hexavalent chromium transport

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Development of low-temperature high-strength integral steel castings for offshore construction by casting process engineering

References Bethlehem Steel Corporation, 1972. Modern steels and their properties. 7th ed. Bethlehem, PA: Bethlehem Steel Corporation. Hall, E.O., 1951. Deformation and ageing of mild steel: III Discussion of results. Proceeding Physical Society (London), B64(9), pp.747-753. Horn, R.M. and Ritchie, R.O., 1978. Mechanisms of tempered martensite embrittlement in low alloy steels. Metallurgical Transactions A, 9(8), pp.1039-1053. Kim, T.W., Lim, S.S., Seok, H.H. and Kang, C.G., 2013. Concurrent

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Flow behaviour and local concentration of coarse particles-water mixture in inclined pipes

REFERENCES Campbell, C.S., Francisco, A.S., Liu, Z., 2004. Preliminary observations of a particle lift force in horizontal slurry flow. Int. J. Multiphase Flow, 30, 199–216. Doron, P., Barnea, D., 1993. A three layer model for solid-liquid flow in horizontal pipes. Int. J. Multiphase Flow, 19, 6, 1029–1043. Doron, P., Barnea, D., 1996. Flow pattern maps for solid-liquid flow in pipes. Int. J. Multiphase Flow, 22, 2, 273–283. Durand, R., 1953. Concentration measuring instrument for hydraulic transportation installation. La Houille Blanche

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Experimental investigation of coarse particles-water mixture flow in horizontal and inclined pipes

. Freight Pipeline Society Symp., Madrid, 28 June-1 July 2011, pp. 147-154. Krupicka, J., Matousek, V., 2012. Gamma-ray-based method for density sensing in pipes - evaluation of measurement and data processing. In: Proc. 2nd IAHR Europe Congr., Munich (Germany), 27-30 June 2012. Lukerchenko, N., Chara, Z., Vlasak, P., 2006. 2D numerical model of particle-bed collision in fluid-particle flows over bed. J. Hydraulic Research, 44, 1, 70-78. Matousek, V., 2009a. Concentration profiles and solids transport above stationary

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Study of Porosity Distribution in Spin Cast Zinc Alloy Castings

References 1. CLARSON, K. D. and all. 2002. Modeling of porosity formation and feeding flow in steel casting . Chicago: Steel Founders’ Society of America. 2. TIAN, C. and all. 2002. Effect of melt cleanliness on the formation of porosity defects in automotive aluminium high pressure die castings. Journal of Materials Processing Technology , 122 (1), pp. 82-93. 3. SHIPING, W. and all. 2003. Numerical simulation of off-centered porosity formation of TiAl-based alloy exhaust valve during vertical centrifugal casting. Modelling and simulation

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An Analysis of the Impact of Valve Closure Time on the Course of Water Hammer

Eng Des, 238, (8), 2084-2093 doi: 10.1016/j.nucengdes.2007.10.027. Mitosek M. (2007) Fluid Mechanics in Environmental Engineering, WNT Warsaw, (in Polish). Pires L. F. G., Laidea R. C. C., Baretto C. V. (2004) Transient Flow Analysis of Fast Valve Closure in Short Pipelines, Proceedings of International Pipeline Conference, October 4-8, 2004, Calgary, Alberta, Canada. Ramos H., de Almeida B. A. (2002) Parametric Analysis of Water Hammer Effects in Small Hydro Schemes, Journal of Hydraulic Engineering, 128 (7), pp. 689

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Flow Structure of Coarse-Grained Slurry in A Horizontal Pipe

References DURAND R., 1951: Transport hydraulique de graviers et galets en conduite. La Houille Blanche, No. Special B (1951), 609-619. DURAND R., CONDOLIOS E., 1952: Hydraulic transport of Coal. in Proceedings of National Coal Board. Pap. IV, 39-55, London, U. K. GILLIES R. G., SHOOK C. A., 2000: Modeling high concentration settling slurry flows. Can. J. Chem. Engng, Vol. 78 , 709-716. GILLIES R. G., SHOOK C. A., WILSON K. C., 1991: An improved two layer

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INFLUENCE OF MATERIAL PROPERTY COMBINATION AND ITS COMPENSATION DURING DEEP DRAWING OF TAILOR-WELDED BLANKS

., MOKROV, O., AHMEDN, E. Statistical modelling of laser welding of DP / TRIP steel sheets . Optics & Laser Technology , (44) 2012, s. 92-101 [5] ČINÁK, M., KOSTKA, P., SCHREK, A.: Ťahanie zváraných polotovarov s nerovnomernými mechanickými vlastnosťami (Deep-drawing of Tailored-welded Blanks with Uneven Mechanical Properties). Hutnické listy č.4/2013, roč. LXVI, ISSN 0018-8069, s.22-25. [6] SCHREK, A, ČINÁK, M., ŽITŇANSKÝ, P.: Experimental laboratory tooling for deep drawing process. In Vol. 19/2011. s. 57--64.

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