Page 18 - ICJ Jan 2026
P. 18
TECHNICAL PAPER
[29] Ojha, P. N., Singh, B., Singh, A., and Patel, V. (2020). [38] Singh, B., Singh, S. B., Barai, S. V., Ojha, P. N., and Kumar,
“Comparison of creep models and experimental R. (2025). “Empirical model for predicting flexural tensile
verification of creep coefficients for normal and high strength and split tensile strength of sintered fly ash
strength concrete”, Journal of Asian Concrete Federation, lightweight concrete”, The Indian Concrete Journal,
Vol. 6, No. 2, pp. 24-36. Vol. 99, No. 11, pp. 5-20.
[30] Ojha, P. N., Singh, B., Singh, A., and Patel, V. (2021). [39] Singh, B., Singh, S. B., and Barai, S. V. (2023). “Performance
“Experimental study on creep and shrinkage behaviour of concrete made using sintered fly ash lightweight
of high strength concrete for application in prestressed aggregate: A review”, The Indian Concrete Journal,
concrete and high-rise buildings”, The Indian Concrete Vol. 97, No. 7, pp. 40-58.
Journal, Vol. 95, No. 2, pp. 30-42. [40] Singh, B., Singh, S. B., Barai, S. K., Singh, A., and Ojha,
P. N. (2025). “Experimental determination of creep
[31] Ojha, P. N., Singh, P., Singh, B., and Singh, A. (2023).
“Fracture behavior of hybrid fiber reinforced normal coefficients for sintered fly ash lightweight aggregate‑
strength and high strength concrete: Comparison with based concrete and verification with creep models”,
plain and steel fiber reinforced concrete”, Research on Research on Engineering Structures & Materials, Vol. 11,
Engineering Structures & Materials, Vol. 9, No. 1, No. 3, pp. 1179-1197.
pp. 243-262. [41] Singh, B., Singh, S. B., Barai, S. V., Ojha, P. N., and Kumar,
R. (2025). “Empirical model for static and dynamic modulus
[32] Singh, B., Singh, P., Ojha, P. N., and Singh, A. (2023). of elasticity for sintered fly ash lightweight aggregate‑
“Experimental study on stress-strain characteristics of based concrete”, Iranian Journal of Science and
very high strength concrete and its effect on stress block Technology, Transactions of Civil Engineering, Advance
parameters for flexural design of buildings”, Research on online publication.
Engineering Structures & Materials, Vol. 9, No. 3,
pp. 503-525. [42] Trivedi, A., Mandre, M., Singh, B., and Ojha P. N. (2023).
”Role of material selection in mix optimization of 3D
[33] Ojha, P. N., Singh, B., Singh, P., Singh, A., and Mittal, printable concrete”, Cement and its Application Journal,
P. (2022). “Experimental determination of stress-strain No. 5.
characteristics of very high strength unconfined concrete in
compression including comparison with normal and high [43] Ojha, P. N., Kumar, S., and Singh, B. (2020). “Pervious
strength concrete”, Revista Ingeniería de Construcción, concrete, plastic concrete and CLSM: A special application
Vol. 37, No. 3, pp. 425-439. concrete”, Journal of Building Materials & Structures,
Vol. 7, pp. 1-15.
[34] Singh, P., Singh, B., Ojha, P. N., Trivedi, A., Singh, A., and
Pede, C. (2023). “Fracture behavior of slag and fly ash‑ [44] Ojha, P. N., Kaura, P., and Mittal, P. (2020). “Performance
evaluation of organic bipolar corrosion inhibiting
based geopolymer concrete in comparison with OPC- admixture”, Indian Concrete Journal, Vol. 94, No. 11,
based conventional concrete, including the effect of steel pp. 37-53
and hybrid fibers”, Revista Ingeniería de Construcción, Vol.
38, No. 2, pp. 362-381. [45] Draft IS: 456 (2025). “Structural concrete: Code of
practice”, Bureau of Indian Standards, New Delhi, India.
[35] Trivedi, A., Ojha, P. N., Singh, A., Singh, B., Bansal, S.,
Sengupta, L. (2022). “Experimental investigations on [46] Draft IS: 383: Part‑I (2025). “Aggregates: Specification
mechanical properties of normal and high strength high Part 1: Coarse and fine aggregates for concrete”, Bureau
calcium geopolymer concrete”, Asian Concrete Federation of Indian Standards, New Delhi, India.
Journal, Vol. 8, No.1, pp.16-25. [47] Draft IS: 383: Part‑II (2025). “Aggregates: Specification
[36] Trivedim A., Goel, R., Kumar, R., Singh, B., Ghatak, A., Part 2: Fine aggregate for masonry and plaster”, Bureau of
Kumar, R. (2025). “Alkali-activated concrete (AAC) for RMC Indian Standards, New Delhi, India.
application construction of demo structure and load test”, [48] Draft IS: 2386: Part-I (2025). “Methods of test for
The Indian Concrete Journal, Vol. 99, No.8, pp. 17-31. aggregates for concrete: Part-I: Determination of physical
properties”, Bureau of Indian Standards, New Delhi, India.
[37] Ojha, P. N., Singh, B., and Behera, A. K. (2021). “Sintered
fly ash lightweight aggregate-Its properties and [49] Draft IS: 2386: Part-II (2025). “Methods of test for aggregates
performance in structural concrete”, The Indian Concrete for concrete Part-II: Determination of mechanical
Journal, Vol. 95, No. 6, pp. 20-30. properties”, Bureau of Indian Standards, New Delhi, India.
THE INDIAN CONCRETE JOURNAL | JANUARY 2026 97
