Affiliation:
1. Research Institute of Concrete and Reinforced Concrete (NIIZHB) named after A.A. Gvozdev, JSC Research Center of Construction; Moscow State University of Civil Engineering (NRU MGSU)
2. Research Institute of Concrete and Reinforced Concrete (NIIZHB) named after A.A. Gvozdev, JSC Research Center of Construction
3. All-Russian Research Institute of Hydraulic Engineering (VNIIG) named after B.E. Vedeneev
Abstract
Introduction. At present, creep is the main parameter determined in the long-term loading tests of concrete samples. However, creep appears to be only one of the deformation properties of a concrete sample during operation under the action of long-term loading. Another important property involves stress relaxation. Moreover, in individual problems (temperature problems, force redistribution problems, etc.), stress relaxation plays a more important role than creep. The introduction of a new test procedure can improve the accuracy of the obtained results (in standard creep tests, concrete relaxation is determined only mathematically), which in turn will increase the accuracy of calculations.Aim. To develop a procedure for testing concrete samples with the determination of their stress relaxation.Materials and methods. The article describes a methodology for conducting an experiment to study the relaxation of concrete samples in compression and bending modes, as well as the parameters of test benches, samples and the principles of load transfer.Results. The main results of experimental studies are presented graphically. An analysis of the results obtained was carried out; the convenience of conducting tests was evaluated.Conclusion. The prospects of the proposed approach for testing concrete samples are demonstrated, and recommendations for amending GOST 24544 are prepared.
Publisher
Joint Stock Company Research Center of Construction
Reference14 articles.
1. Stste Standard 24544-2020. Concrete. Methods for determining shrinkage and creep deformations [internet]. Available at: https://docs.cntd.ru/document/1200177303 (accessed 20.09.2021) (in Russian).
2. ASTM C512. Standard Test Method for Creep of Concrete in Compression. Publication Date: 31 Dec. 2010. https://doi.org/10.1520/c0512-02
3. European Committee for Standardization (CEN). EN 12390-17:2019. Testing hardened concrete – Part 17: Determination of creep of concrete in compression. Publication Date: 1 October 2019.
4. International Organization of Standards. ISO 1920-9 Testing of concrete — Part 9: Determination of creep of concrete cylinders in compression. Publication Date: 1 April 2009.
5. Zagryadsky I.I. Algorithm for numerical determination of concrete deformations taking into account creep based on its known stresses. Clarification of the properties of relaxation measures and creep measures of young concrete. Izvestiya VNIIG im. B.E. Vedeneeva = Proceeding of the VNIIG. 2014;273:96–107 (in Russian).
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