Evaluation of Static Modulus of Elasticity Depending on Concrete Compressive Strength
The paper is focused on monitoring of dependencies
of different composition concretes on elastic modulus values.
To obtain a summary of elastic modulus development in dependence
of concrete composition design variability was the objective
of the experiment. Essential part of this work was initiated
as a reaction to building practice when questions of elastic moduli
arose at the same time and which mostly did not obtain the required
and expected values from concrete constructions.
[1] Unčík, S.; Ševčík, P. Modul pružnosti betonu. Trnava: Betón Racio,
s.r.o., 2008. 24 s. ISBN 978-80-959182-3-2.
[2] Yan, K.; Shi, C. Prediction of elastic modulus of normal and high
strength concrete by support vector machine. Construction and
Buildings Materials (online). Elsevier. August 2010, Vol. 24, issue 8, p.
1479–1485. (cit. 2011-11-10). Available from:
http://www.sciencedirect.com/science/article/pii/S0950061810000188.
[3] Misák, P.; Vymazal, T. Modul pružnosti vs. pevnost v tlaku. Beton TKS.
2009, roč. 9, č. 2, s. 58-59. ISSN 1213-3116.
[4] Cikrle, P.; Bílek, V. Modul pružnosti vysokopevnostních betonů
různého složení. Beton TKS. 2010, roč. 10, č. 5, s. 40-44. ISSN 1213-
3116.
[5] EN 1992-1-1 EuroCode 2: Designing of Concrete Structures – Part 1-1:
General Regulations for Civil Engineering.
[6] Hubertová, M. Statický modul pružnosti lehkých konstrukčních betonů.
Beton TKS. 2010, roč. 2010, č. 4, s. 50-53. ISSN 1213-3116.
[7] Bajza, A.; Rouseková, I. Technológia betónu. Bratislava: JAGA
GROUP, s.r.o., 2006. 190 s. ISBN 80-8076-032-2.
[8] Civil 111 Construction materials (online). (cit. 2012-08-16). Available
from: http://teaching.ust.hk/~civl111/CHAPTER5.pdf.
[9] Vilanova, A.; Fernandez-Gomez, J.; Landsberger, G.A. Evaluation of
the mechanical properties of self compacting concrete using current
estimating models: Estimating the modulus of elasticity, tensile strength,
and modulus of rupture of self compacting concrete. Construction and
Building Materials (online). Elsevier. August 2011, Vol. 25, issue 8, p.
3417-3426. (cit. 2012-06-20). Available from:
http://www.sciencedirect.com/science/article/pii/S0950061811000791.
[10] Yildirim, H.; Sengul, O. Modulus of elasticity of substandard and
normal concretes. Construction and Building Materials (online).
Elsevier. April 2011, Vol. 25, issue 4, p. 1645–1652. (cit. 2012-07-31).
Available from: http://www.sciencedirect.com/science/article/pii
/S0950061810005040.
[11] Noguchi, T.; Tomosawa, F.; Nemati, K. M.; et al. Practical Equation for
Elastic Modulus of Concrete. ACI Strucutral Journal: Technical paper.
September-October 2009, vol. 106, no. 5, p. 690-696.
[12] Coolepardi, M. Moderní beton. Praha: Informační centrum ČKAIT,
s.r.o., 2009. 344 p. ISBN 978-80-87093-75-7.
[13] Tia, M.; Liu, Y.; Brown, D. Modulus of elasticity, creep and shrinkage
of concrete (online). Available from: http://www.dot.state.fl.us/researchcenter/
Completed_Proj/Summary_SMO/FDOT_BC354_85_rpt.pdf.
[14] EN 206 Concrete – Specification, performance, production and
conformity. June, 2014.
[15] K. Křížová: Studium závislostí složení betonů na hodnoty modulů
pružnosti: disertační práce. Brno: Vysoké učení technické v Brně,
Fakulta stavební, 2013. 154 s.
[1] Unčík, S.; Ševčík, P. Modul pružnosti betonu. Trnava: Betón Racio,
s.r.o., 2008. 24 s. ISBN 978-80-959182-3-2.
[2] Yan, K.; Shi, C. Prediction of elastic modulus of normal and high
strength concrete by support vector machine. Construction and
Buildings Materials (online). Elsevier. August 2010, Vol. 24, issue 8, p.
1479–1485. (cit. 2011-11-10). Available from:
http://www.sciencedirect.com/science/article/pii/S0950061810000188.
[3] Misák, P.; Vymazal, T. Modul pružnosti vs. pevnost v tlaku. Beton TKS.
2009, roč. 9, č. 2, s. 58-59. ISSN 1213-3116.
[4] Cikrle, P.; Bílek, V. Modul pružnosti vysokopevnostních betonů
různého složení. Beton TKS. 2010, roč. 10, č. 5, s. 40-44. ISSN 1213-
3116.
[5] EN 1992-1-1 EuroCode 2: Designing of Concrete Structures – Part 1-1:
General Regulations for Civil Engineering.
[6] Hubertová, M. Statický modul pružnosti lehkých konstrukčních betonů.
Beton TKS. 2010, roč. 2010, č. 4, s. 50-53. ISSN 1213-3116.
[7] Bajza, A.; Rouseková, I. Technológia betónu. Bratislava: JAGA
GROUP, s.r.o., 2006. 190 s. ISBN 80-8076-032-2.
[8] Civil 111 Construction materials (online). (cit. 2012-08-16). Available
from: http://teaching.ust.hk/~civl111/CHAPTER5.pdf.
[9] Vilanova, A.; Fernandez-Gomez, J.; Landsberger, G.A. Evaluation of
the mechanical properties of self compacting concrete using current
estimating models: Estimating the modulus of elasticity, tensile strength,
and modulus of rupture of self compacting concrete. Construction and
Building Materials (online). Elsevier. August 2011, Vol. 25, issue 8, p.
3417-3426. (cit. 2012-06-20). Available from:
http://www.sciencedirect.com/science/article/pii/S0950061811000791.
[10] Yildirim, H.; Sengul, O. Modulus of elasticity of substandard and
normal concretes. Construction and Building Materials (online).
Elsevier. April 2011, Vol. 25, issue 4, p. 1645–1652. (cit. 2012-07-31).
Available from: http://www.sciencedirect.com/science/article/pii
/S0950061810005040.
[11] Noguchi, T.; Tomosawa, F.; Nemati, K. M.; et al. Practical Equation for
Elastic Modulus of Concrete. ACI Strucutral Journal: Technical paper.
September-October 2009, vol. 106, no. 5, p. 690-696.
[12] Coolepardi, M. Moderní beton. Praha: Informační centrum ČKAIT,
s.r.o., 2009. 344 p. ISBN 978-80-87093-75-7.
[13] Tia, M.; Liu, Y.; Brown, D. Modulus of elasticity, creep and shrinkage
of concrete (online). Available from: http://www.dot.state.fl.us/researchcenter/
Completed_Proj/Summary_SMO/FDOT_BC354_85_rpt.pdf.
[14] EN 206 Concrete – Specification, performance, production and
conformity. June, 2014.
[15] K. Křížová: Studium závislostí složení betonů na hodnoty modulů
pružnosti: disertační práce. Brno: Vysoké učení technické v Brně,
Fakulta stavební, 2013. 154 s.
@article{"International Journal of Architectural, Civil and Construction Sciences:70387", author = "K. Krizova and R. Hela", title = "Evaluation of Static Modulus of Elasticity Depending on Concrete Compressive Strength", abstract = "The paper is focused on monitoring of dependencies
of different composition concretes on elastic modulus values.
To obtain a summary of elastic modulus development in dependence
of concrete composition design variability was the objective
of the experiment. Essential part of this work was initiated
as a reaction to building practice when questions of elastic moduli
arose at the same time and which mostly did not obtain the required
and expected values from concrete constructions.", keywords = "Concrete, Compressive strength, Modulus of
elasticity, EuroCode 2.", volume = "9", number = "5", pages = "654-4", }
