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Specimen size and shape effect on the compressive strength of concrete

НазваSpecimen size and shape effect on the compressive strength of concrete
Назва англійськоюSpecimen size and shape effect on the compressive strength of concrete
АвториVolodymyr Iasnii;Taras Mykytyshyn
ПринадлежністьTernopil Ivan Puluj National Technical University, Ternopil, Ukraine
Бібліографічний описSpecimen size and shape effect on the compressive strength of concrete / Volodymyr Iasnii;Taras Mykytyshyn // Scientific Journal of TNTU. — Tern.: TNTU, 2023. — Vol 111. — No 3. — P. 97–105.
Bibliographic description:Iasnii V.; Mykytyshyn T. (2023) Specimen size and shape effect on the compressive strength of concrete. Scientific Journal of TNTU (Tern.), vol 111, no 3, pp. 97–105.
DOI: https://doi.org/10.33108/visnyk_tntu2023.03.097
УДК

624.01

Ключові слова

compressive strength, concrete specimen, size effect, shape effect.

The results of the investigation of the specimen size and shape effect on concrete strength indicators are presented in this paper. Research on the strength of concrete specimens in the form of cubes (150x150x150 mm) and cylinders of different diameters (50 mm, 100 mm and 150 mm) and heights (100 mm,
200 mm and 300 mm), under compression are carried out on Matest testing machine with Servo-Plus Evolution servo-drive control unit. Three specimens of each type are tested. Control specimens are made according to such ratios of materials that concrete corresponds to the strength class C16/20. All specimens are visually inspected for the presence of any defects, such as large pores, chips, or shrinkage cracks. After that, the actual measurements of all specimens are carried out. They showed minimal deviations from the planned size, which is considered acceptable. In order to check the reliability of the results, after the research of each type of specimen, calculations are carried out to determine the actual strength and the concrete grade. The actual dimensions of the faces and the results of the certain batch research are taken. The data obtained from the concrete specimens research on the test press are analyzed. Due to the formulas and data obtained after the investigation, the actual strength class of concrete for all specimens is determined. According to the results of the research, fracture graphs of all types of control specimens are constructed. The results show that the laboratory measurements are consistent with the literature results, namely that the compressive strength decreases with the specimen size increase. In the case of the smallest, non-standardized specimens (cylinders with 100 mm height and 50 mm diameter), the deviation of compressive strength tests is higher compared to other specimens. The graph is presented for visualizing the specimen type and size effect on concrete strength.

ISSN:2522-4433
Перелік літератури

1.   Soutsos M., Domone P. Construction Materials. Their nature and behaviour. Fourth edition. 2010. 510 p.
2.   Cai Y., Liu Q. Stability of fresh concrete and its effect on late-age durability of reinforced concrete: An overview // J. Build. Eng. Elsevier, 2023. P. 107701.
3.   Dvorkin L.I. Mitsnist betonu: navchalnyi posibnyk– K.: Vydavnychyi dim «Kondor». 2021.
4.   DBN A.3.1-5:2016 Orhanizatsiia budivelnoho vyrobnytstva. 2017.
5.   DSTU B V.2.7-220:2009 Budivelni materialy. Betony. Vyznachennia mitsnosti mekhanichnymy metodamy neruinivnoho kontroliu. 2009.
6.   Yasnii P.V., Kononchuk O.P., Yakubyshyn O.M. Doslidzhennia mitsnosti betonu neruinivnymy metodamy kontroliu // Resursoekonomni materialy, konstruktsii, budivli ta sporudy. 2016. Vol. 32. P. 296–303.
7.   DSTU B V.2.7-224:2009. Budivelni materialy. Betony. Pravyla kontroliu mitsnosti. – DP NDIBK, K. Minrehionbud Ukrainy. 2010. 23 p.
8.   DSTU B V.2.7-224:2009. Budivelni materialy. Betony. Pravyla kontroliu mitsnosti. – DP NDIBK, K. Minrehionbud Ukrainy. 2010. 23 p.
9.   DBN V.2.6-98:2009 Konstruktsii budynkiv i sporud. Betonni ta zalizobetonni konstruktsii. Osnovni polozhennia. Zi zminoiu № 1. 2011. 67 p.
10. Tokyay M., Özdemir M. Specimen shape and size effect on the compressive strength of higher strength concrete // Cem. Concr. Res. Pergamon, 1997. Vol. 27, № 8. P. 1281–1289.
11. Kim J.K., Yi S.T., Yang E.I. Size Effect on Flexural Compressive Strength of Concrete Specimens // Struct. J. 2000. Vol. 97, № 2. P. 291–296.
12. Gyurkó Z., Nemes R. Specimen Size and Shape Effect on the Compressive Strength of Normal Strength Concrete // Period. Polytech. Civ. Eng. 2020. Vol. 64, № 1. P. 276–286.

References:

1.   Soutsos M., Domone P. Construction Materials. Their nature and behaviour. Fourth edition. 2010. 510 p.
2.   Cai Y., Liu Q. Stability of fresh concrete and its effect on late-age durability of reinforced concrete: An overview // J. Build. Eng. Elsevier, 2023. P. 107701.
3.   Dvorkin L.I. Mitsnist betonu: navchalnyi posibnyk– K.: Vydavnychyi dim «Kondor». 2021.
4.   DBN A.3.1-5:2016 Orhanizatsiia budivelnoho vyrobnytstva. 2017.
5.   DSTU B V.2.7-220:2009 Budivelni materialy. Betony. Vyznachennia mitsnosti mekhanichnymy metodamy neruinivnoho kontroliu. 2009.
6.   Yasnii P.V., Kononchuk O.P., Yakubyshyn O.M. Doslidzhennia mitsnosti betonu neruinivnymy metodamy kontroliu // Resursoekonomni materialy, konstruktsii, budivli ta sporudy. 2016. Vol. 32. P. 296–303.
7.   DSTU B V.2.7-224:2009. Budivelni materialy. Betony. Pravyla kontroliu mitsnosti. – DP NDIBK, K. Minrehionbud Ukrainy. 2010. 23 p.
8.   DSTU B V.2.7-224:2009. Budivelni materialy. Betony. Pravyla kontroliu mitsnosti. – DP NDIBK, K. Minrehionbud Ukrainy. 2010. 23 p.
9.   DBN V.2.6-98:2009 Konstruktsii budynkiv i sporud. Betonni ta zalizobetonni konstruktsii. Osnovni polozhennia. Zi zminoiu № 1. 2011. 67 p.
10. Tokyay M., Özdemir M. Specimen shape and size effect on the compressive strength of higher strength concrete // Cem. Concr. Res. Pergamon, 1997. Vol. 27, № 8. P. 1281–1289.
11. Kim J.K., Yi S.T., Yang E.I. Size Effect on Flexural Compressive Strength of Concrete Specimens // Struct. J. 2000. Vol. 97, № 2. P. 291–296.
12. Gyurkó Z., Nemes R. Specimen Size and Shape Effect on the Compressive Strength of Normal Strength Concrete // Period. Polytech. Civ. Eng. 2020. Vol. 64, № 1. P. 276–286.

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