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Testing Of Concrete Abrasion Resistance In Hydraulic Structures On The Lower Sava River

A. Kryžanowski, M. Mikos, J. Šušteršič, V. Ukrainczyk, I. Planinc
Published 2012 · Engineering

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The paper deals with the issues of resistance of concrete linings to long-term abrasion loading caused by waterborne particles, particularly for the proposed hydro power plants on the Sava River in Slovenia. The main purpose of the research work was to define the possibility of forecasting the process of concrete lining wear on the Sava River dam structures based on the standard procedures of abrasion resistance testing. Abrasion resistance of concrete has been researched in accordance with the standard ASTM C 1138 and Bohme (DIN 52108) methods. The research work was based on a comparison between laboratory results and measurements of abrasion resistance of concrete under natural conditions by performing test plots in the stilling basin of the Vrhovo HPP. Concrete composites with different mechanical properties have been analysed within the research programme. The analysis showed a qualitative similarity of the level of concrete abrasion between laboratory simulations and measurements in the field, as well as suitability of the ASTM C 1138 laboratory method for the assessment of abrasion resistance of concretes in the spillway of the HPP chain on the Lower Sava River.
This paper references
Controls over bedrock channel incision
J. K. Kim (2004)
10.1016/J.WEAR.2006.12.008
Mathematical model of abrasive wear of high performance concrete
E. Horszczaruk (2008)
10.1016/J.WEAR.2008.11.010
Hydro-abrasive erosion of high performance fiber-reinforced concrete
E. Horszczaruk (2009)
Abrasion Resistance of Concrete on Hydraulic
A. Kryžanowski (2009)
10.14359/56655
Abrasion Resistance of Concrete in Hydraulic Structures
A. Kryžanowski (2009)
Technical report: Performance of concrete exposed to underwater abrasion loading. Institute for research in materials and applications , Ljubljana
J. Šušteršič (2004)
10.1016/J.WEAR.2004.01.019
High-speed hydrodynamic wear of steel-fibre reinforced hydraulic concrete
X. Hu (2004)
Standard Test Method for Abrasion Resistance of Concrete (Underwater Method)
C ASTM (2006)
Bestimmung des Abriebs und der Erosion von Betonen mittels eines Gesteinsstoff- Wassergemisches
A. Bania (1989)
10.1016/J.WEAR.2005.02.079
Abrasion resistance of high-strength concrete in hydraulic structures
E. Horszczaruk (2005)
Betonabrasion im Wasserbau, Miteilungen der Versuchsanstalt für Wasserbau
F. Jakobs (2001)
Analyses of concrete resistance to deterioration due to water action
A. Kryžanowski (1991)
Technical report No. 831: Estimation of river bed and water level rise in the Vrhovo storage reservoir. Hydraulic Laboratory, Ljubljana
O. Colarič (1985)
10.5545/104_DOI_NOT_ASSIGNED
Impact of Solid Particulate on Brittle Materials
D. Aquaro (2009)
Technical report: Determination abrasion resistance of various materials exposed to abrasion erosion. Hydraulic Laboratory, Ljubljana
B. Šetina (1969)
Standard test method for abrasion resistance of horizontal concrete surfaces
F. Jakobs (2005)
Fluvial abrasion of gravel sediments
M. Mikos (1993)
10.14359/1174
ABRASION RESISTANCE OF CONCRETE BLOCK PAVERS
N. Ghafoori (1995)
10.1016/S0043-1648(03)00525-8
The model of abrasive wear of concrete in hydraulic structures
E. Horszczaruk (2004)
Performance of concrete exposed to long-term underwater abrasion loading
A. Kryžanowski (2003)
10.5545/113_DOI_NOT_ASSIGNED
A Novel Technique for Spatial Objects Shaping with a High-Pressure Abrasive Water Jet
P. Borkowski (2010)



This paper is referenced by
10.1201/B19249-54
Testing of concrete abrasion resistance in hydraulic structures
Andrej Kryžanowski (2015)
10.1051/MATECCONF/201819907011
Underwater Abrasion Resistance of Cementitious Acrylic Coating on Repaired Surface of Concrete Dam and Stilling Basin
Jakob Šušteršič (2018)
10.1155/2019/6924976
Image-Based Underwater Inspection System for Abrasion of Stilling Basin Slabs of Dam
Li Yong-long (2019)
Three-Dimensional Characterization of Concrete ’ s Abrasion Resistance Using Laser
Kozjek ()
10.1007/s12205-020-1431-1
Exposed Aggregate Detection of Stilling Basin Slabs Using Attention U-Net Network
Y. Li (2020)
10.4028/www.scientific.net/AMM.897.41
Abrasion of Reactive Powder Concrete under Direct Water Impact
M. L. Hussein (2020)
10.1016/j.cscm.2019.e00299
Underwater abrasion of steel fiber-reinforced self-compacting concrete
Sallal R. Abid (2019)
10.1051/E3SCONF/20184005053
Bedload transport and hydro-abrasive erosion at steep bedrock rivers and hydraulic structures
Michelle Müller-Hagmann (2018)
Surface impregnated concrete: A comparative study
N. Ukrainczyk (2013)
10.14359/51724592
Review of Concrete Resistance to Abrasion by Waterborne Solids
N. Omoding (2020)
10.4028/www.scientific.net/NHC.30.63
Water Impact-Abrasion Erosion of Hybrid Fiber-Reinforced High Performance Concrete
Sajjad H. Ali (2020)
10.3390/w12020469
Field Investigation on Hydroabrasion in High-Speed Sediment-Laden Flows at Sediment Bypass Tunnels
Michelle Müller-Hagmann (2020)
10.1109/ICASEA.2018.8370969
Numerical model for flow on stilling basin type III
Ali. N. Hilo (2018)
10.1016/J.CONBUILDMAT.2018.03.213
Experimental tests on the underwater abrasion of Engineered Cementitious Composites
Sallal R. Abid (2018)
Durability of Robust Self Compacting Hybrid Fiber Reinforced Concrete 1750
Chikkala Ravi Teja (2019)
10.1680/JMAEN.15.00011
Briefing: Abrasion performance of concrete in coastal structures
L. Cunningham (2015)
10.5545/SV-JME.2015.2430
Three-Dimensional Characterization of Concrete’s Abrasion Resistance Using Laser Profilometry
Dominik Kozjek (2015)
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