Collection of scientific papers "Dorogi i Mosti" (Roads and Bridges)
ISSN 2524-0994 (Print)
ISSN 2786-488X (Online)
EN UA

Study of concrete strength by non-destructive and destructive methods

published:
Number: Issue 29 (2024)
Section: Hydrotechnical construction, water engineering and water technology
DOI: https://doi.org/10.36100/dorogimosti2024.29.225
The page spacing of the article: 225-234
Keywords: concrete, concrete strength, concrete testing, methods for determining strength, bridges, comparison.
How to quote an article: Maksym Borysenko, Bohdan Zelenskyi, Serhii Zavgorodnyi, Olena Ivonenko. Study of concrete strength by non-destructive and destructive methods. Dorogi і mosti [Roads and bridges]. Kyiv, 2024. Issue 29. P. 225–234 [in Ukrainian].

Authors

State Enterprise «National Institute for Development Іnfrastructure» (SE «NIDI»), Kyiv, Ukraine
https://orcid.org/0000-0002-9949-3209
State Enterprise «National Institute for Development Іnfrastructure» (SE «NIDI»), Kyiv, Ukraine
https://orcid.org/0000-0001-9772-3536
https://orcid.org/0000-0003-4234-7419
State Enterprise «National Institute for Development Іnfrastructure» (SE «NIDI»), Kyiv, Ukraine
https://orcid.org/0000-0003-1928-4544

Summary

Introduction. As a result of the military aggression of the Russian Federation against Ukraine, there is an urgent need to restore damaged and destroyed structures. Depending on the material of the span structure, bridges are divided into reinforced concrete, metal, steel-reinforced concrete, stone and wooden. Reinforced concrete bridges are the most common in Ukraine. Such structures account for almost 94 % of the total number of all bridges. Even if the bridge span is made of metal beams, such structures often have a reinforced concrete overlay slab, which means that reinforced concrete is also an integral load-bearing part of the bridge that requires proper maintenance during operation and, if necessary, repair or restoration work.  In order to determine the technical condition of span structures, it is first of all necessary to inspect the structure. Typically, the list of inspection activities includes testing the concrete of structures for compressive strength. Therefore, determining the physical and mechanical characteristics of concrete is an integral part of planning for major repairs, reconstruction or new construction.

This paper investigates different methods for determining the concrete strength of bridge elements. The accuracy of the results of different methods in laboratory conditions is analyzed.

Problem statement. The use of a particular method has its advantages and disadvantages, which, in turn, can affect the accuracy of the data obtained.

Objective. To analyze different methods for determining the strength of concrete. To compare the data obtained and determine which methods of research are the most accurate.

Materials and methods. To conduct the experiments, the state standards and regulations in force in Ukraine, as well as available resources and databases on the Internet are used.

Results. Laboratory tests of concrete samples were carried out, the results obtained were analyzed, and recommendations for the use of various methods for determining the strength of concrete were given.

Conclusions. The values obtained during the research provide information on the most accurate methods for determining the strength of concrete.

References

1.     DSTU B V.2.7-46-96 Budivelni materialy. Tsementy zahalnobudivelnoho pryznachennia. Tekhnichni umovy (Building materials. Cements for general construction purpose. Specifications). Kyiv, 1996. 56 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

2.    DSTU B V.2.7-214:2009 Budivelni materialy. Betony. Metody vyznachennia mitsnosti za kontrolnymy zrazkamy (Building materials. Concretes. Methods of determining strength according to control samples). Kyiv, 2009. 36 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

3.    DSTU B V.2.7-220:2009 Budivelni materialy. Betony. Vyznachennia mitsnosti mekhanichnymy metodamy neruinivnoho kontroliu (Building materials. Concretes. Determination of strength by mechanical methods of non-destructive testing). Kyiv, 2009. 56 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

4.    DSTU B V.2.7-223:2009 Budivelni materialy. Betony. Metody vyznachennia mitsnosti za zrazkamy, vidibranymy z konstruktsii (Building materials. Concretes. Methods of determining strength based on samples taken from structures). Kyiv, 2009. 62 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

5.    DSTU B V.2.7-224:2009 Budivelni materialy. Betony. Pravyla kontroliu mitsnosti (Building materials. Concretes. Strength control rules). Kyiv, 2009. 56 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

6.    DSTU 9208:2022 Betony vazhki. Tekhnichni umovy (Heavy concretes. Specifications). Kyiv, 2022. 49 p. (Informatsiia ta dokumentatsiia) [in Ukrainian].

7.    Herns A.: 6 Ways You Know to Test Concrete Field Strength and 1 You May Not Know, 2023 URL: https://www.giatecscientific.com/education/6-ways-you-know-to-test-concrete-strength-and-1-you-may-not-have-heard-of/ (last accessed: 08.02.2024) [in English].

8.    Mishra G.: Non-destructive Tests on Concrete – Methods, Uses, URL: https:// theconstructor. org/practical-guide/non-destructive-testing-of-concrete/5553/ (last accessed: 08.02.2024) [in English].

9.    Mishra G.: Compressive Strength of the Concrete – Cube Test URL: https:// theconstructor. org/concrete/compressive-strength-concrete-cube-test/1561 (last accessed: 08.02.2024) [in English].

10.   Adigun Akeem, C.E.T. P.Geo.: THE NEED FOR NON DESTRUCTIVE TESTS ON CONCRETE, 2021 URL: https://www.linkedin.com/pulse/need-non-destructive-tests-concrete-adigun-akeem (last accessed: 08.02.2024) [in English].

Archives

Main news

Calendar of events and news

Important information resources