JKCI - Journal of the Korea Concrete Institute

1

ASTM (2021) Standard Test Method for Compressive Strength of Cylindrical Concrete Specimens (ASTM C39/C39M-21). ASTM International Pennsylvania, USA

2

BSI (2021) Testing Concrete, Part 124: Methods for Analysis of Hardened Concrete (BS 1881-124:2015+A1:2021). British Standards Institution (BSI) London, UK

3

Buller, A. H., Oad, M., and Memon, B. A. (2018) Relationship between Cubical and Cylindrical Compressive Strength of Recycled Aggregate Concrete. International Journal of Innovative Research in Engineering & Multidisciplinary Physical Sciences 6(5), 133-138.

4

CEN (2019) Testing Hardened Concrete, Part 3 : Compressive Strength of Test Specimens (BS EN 12390-3). European Committee for Standardization (CEN), British Standards Institute (BSI) London, UK

5

Elwell, D. J., and Fu, G. (1995) Compression Testing of Concrete : Cylinder vs. Cubes. Transportation Research and Development Bureau, New York State Department of Transportation FHWA/NY/SR-95/119. Albany, NY

6

Graybeal, B., and Davis, M. (2008) Cylinder or Cube: Strength Testing of 80 to 200 MPa (11.6 to 29 ksi) Ultra-High-Performance Fiber-Reinforced Concrete. ACI Materials Journal 105(6), 603-609.

7

Iron, D. H., Obot, U. C., and Effiong, U. (2024) Comparative Study of Cube and Cylinder Crushing Strengths of Laterized Concrete. International Journal of Multidisciplinary Research and Analysis 7(2), 543-552.

8

JIS (2020) Method of Making and Testing for Compressive Strength of Concrete Using Small-Sized Specimens (JIS A 1163: 2020). Japanese Industrial Standards (JIS)

9

JSA (2020) Method of Making and Testing for Compressive Strength BOSS Specimens (JIS A 1163). Japanese Standards Association (JSA), Japanese Industrial Standard (JIS) Tokyo, Japan

10

KATS (2022) Test Method for Compressive Strength of Concrete (KS F 2405). Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA) Seoul, Korea (In Korean)

11

KATS (2024) Standard Test Method for Making and Curing Concrete Specimens (KS F 2403). Korea Agency for Technology and Standards (KATS), Korea Standard Association (KSA) Seoul, Korea (In Korean)

12

KCI (2022) Curing Methods for Concrete Specimens on Site (KCI-CT118). Korea Concrete Institute (KCI) Seoul, Korea (In Korean)

13

KCI (2024) Normal Concrete (KCS 14 20 10). Ministry of Land, Infrastructure and Transport (MOLIT), Korea Concrete Institute (KCI) Sejong, Korea (In Korean)

14

Kim, J. K., Eo, S. H., and Yi, S. T. (1997) Size Effect of Compressive Strength of Concrete for the Non-standard Cylindrical Specimens. Magazine of the Korea Concrete Institute 9(1), 105-113. (In Korean)

15

Li, M., Hao, H., Shi, Y., and Hao, Y. (2018) Specimen Shape and Size Effects on the Concrete Compressive Strength under Static and Dynamic Tests. Construction and Building Materials 161, 84-93.

16

Razavi, R. M., Sam, A. R. M., Ahmad, Y., and Koushfar, K. (2013) Behavior of Different Shape of Concrete Prism Strengthened with FRP Material under Compressive Axial Load. Australian Journal of Basic and Applied Sciences 7(4), 203-212.

17

Sim, J., Yang, K., and Yi, S. (2015) Size Effect of Concrete Compressive Strength Considering Dried Unit Weight of Concrete. Journal of the Korea Concrete Institute 27(2), 169-176. (In Korean)

18

Yang, E. I., Choi, J. C., and Yi, S. T. (2004) Effect of Specimen Sizes and Shapes on Compressive Strength of Concrete. Journal of the Korea Concrete Institute 16(3), 375-382. (In Korean)

19

Yi, S. T., Yang, E. I., and Choi, J. C. (2006) Effect of Specimen Sizes, Specimen Shapes, and Placement Directions on Compressive Strength of Concrete. Nuclear Engineering and Design 236(2), 115-127.

JKCIJournal of
the Korea Concrete Institute

Journal of the Korea Concrete Institute

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JKCIJournal ofthe Korea Concrete Institute