Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC)
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,
Society for Materials and Structures Testing of Serbia
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This paper presents the results of the authors' laboratory testing of physical,
mechanical and durability properties of Ultra-high Performance Concrete (UHPC).
The short history of development and application of UHPC concrete is presented in
the first part of this paper while the second part deals with the experimental
investigation, presenting the results of material characterization obtained from
physical-mechanical and durability tests. Based on the results shown in the paper,
the mean value of compressive strength obtained at 28 days is 114 MPa, with the
average density of 2270 kg/m3 in hardened state. The results showed that tested
UHPC belongs to the highest class of water impermeability V-III, as well as the
highest class MS0 (without visible damage) in a simulated freeze-thaw environment
and de-icing salt attack test. Also, the highest class XM3 for abrasion resistance
was achieved. Additional tests showed that the tested concrete fulfils the
requirements for the hi...ghest exposure classes XC4 and XD4, in terms of resistance
to carbonation and the penetration of chloride ions. Conclusions and
recommendations for further development and possible application of UHPC are
presented at the end of paper.
Кључне речи:
physical-mechanical properties / durability tests / ultra-high performance concrete / laboratory testsИзвор:
Building materials and structures, 2021, 64Издавач:
- Society for Materials and Structures Testing of Serbia
- University of Belgrade, Faculty of Civil Engineering
- Association of Structural Engineers of Serbia
Финансирање / пројекти:
- Министарство науке, технолошког развоја и иновација Републике Србије, институционално финансирање - 200092 (Универзитет у Београду, Грађевински факултет) (RS-MESTD-inst-2020-200092)
Колекције
Институција/група
GraFarTY - JOUR AU - Mitrović, Stefan AU - Popović, Dragana AU - Tepavčević, Miroslav AU - Zakić, Dimitrije PY - 2021 UR - https://grafar.grf.bg.ac.rs/handle/123456789/2372 AB - This paper presents the results of the authors' laboratory testing of physical, mechanical and durability properties of Ultra-high Performance Concrete (UHPC). The short history of development and application of UHPC concrete is presented in the first part of this paper while the second part deals with the experimental investigation, presenting the results of material characterization obtained from physical-mechanical and durability tests. Based on the results shown in the paper, the mean value of compressive strength obtained at 28 days is 114 MPa, with the average density of 2270 kg/m3 in hardened state. The results showed that tested UHPC belongs to the highest class of water impermeability V-III, as well as the highest class MS0 (without visible damage) in a simulated freeze-thaw environment and de-icing salt attack test. Also, the highest class XM3 for abrasion resistance was achieved. Additional tests showed that the tested concrete fulfils the requirements for the highest exposure classes XC4 and XD4, in terms of resistance to carbonation and the penetration of chloride ions. Conclusions and recommendations for further development and possible application of UHPC are presented at the end of paper. PB - Society for Materials and Structures Testing of Serbia PB - University of Belgrade, Faculty of Civil Engineering PB - Association of Structural Engineers of Serbia T2 - Building materials and structures T1 - Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC) VL - 64 DO - 10.5937/GRMK2102109M ER -
@article{ author = "Mitrović, Stefan and Popović, Dragana and Tepavčević, Miroslav and Zakić, Dimitrije", year = "2021", abstract = "This paper presents the results of the authors' laboratory testing of physical, mechanical and durability properties of Ultra-high Performance Concrete (UHPC). The short history of development and application of UHPC concrete is presented in the first part of this paper while the second part deals with the experimental investigation, presenting the results of material characterization obtained from physical-mechanical and durability tests. Based on the results shown in the paper, the mean value of compressive strength obtained at 28 days is 114 MPa, with the average density of 2270 kg/m3 in hardened state. The results showed that tested UHPC belongs to the highest class of water impermeability V-III, as well as the highest class MS0 (without visible damage) in a simulated freeze-thaw environment and de-icing salt attack test. Also, the highest class XM3 for abrasion resistance was achieved. Additional tests showed that the tested concrete fulfils the requirements for the highest exposure classes XC4 and XD4, in terms of resistance to carbonation and the penetration of chloride ions. Conclusions and recommendations for further development and possible application of UHPC are presented at the end of paper.", publisher = "Society for Materials and Structures Testing of Serbia, University of Belgrade, Faculty of Civil Engineering, Association of Structural Engineers of Serbia", journal = "Building materials and structures", title = "Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC)", volume = "64", doi = "10.5937/GRMK2102109M" }
Mitrović, S., Popović, D., Tepavčević, M.,& Zakić, D.. (2021). Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC). in Building materials and structures Society for Materials and Structures Testing of Serbia., 64. https://doi.org/10.5937/GRMK2102109M
Mitrović S, Popović D, Tepavčević M, Zakić D. Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC). in Building materials and structures. 2021;64. doi:10.5937/GRMK2102109M .
Mitrović, Stefan, Popović, Dragana, Tepavčević, Miroslav, Zakić, Dimitrije, "Physical-mechanical properties and durability of Ultra-high Performance Concrete (UHPC)" in Building materials and structures, 64 (2021), https://doi.org/10.5937/GRMK2102109M . .