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TECHNICAL PAPER
[9] Ojha, P. N., Trivedi, A., Singh, B., and Singh, A. (2020). [19] Singh, B., Ojha, P. N., Trivedi, A., Patel, V., and Arora,
“Evaluation of mechanical and durability properties of V. V. (2021). “Development of empirical equations for
concrete made with Indian bottom ash as replacement of prediction of flexural and split tensile strength for normal
fine aggregate”, Journal of Asian Concrete Federation, and high-strength concrete with granite and calc-granulite
Vol. 6, No. 2, pp. 50-65. aggregate”, The Indian Concrete Journal, Vol. 95, No. 11,
pp. 36-46.
[10] Ojha, P. N., Singh, B., Kaura, P., and Satyakam, R. (2022).
“Ash utilization strategy in India-a way forward”, In Reddy, [20] Ojha, P. N., Singh, P., Singh, B., Singh, A., Sagar, A., and
K. R., Pancharathi, R. K., Reddy, N. G., and Arukala, S. R. Yadav, R. (2022). “Statistical characteristics of compressive
(eds.) Advances in Sustainable Materials and Resilient strength of normal and high-strength concrete and
Infrastructure, Springer, Singapore, pp. 145-157. concrete made with recycled aggregate”, Revista
Ingeniería de Construcción, Vol. 37, No. 3, pp. 367-378.
[11] Ojha, P. N., Singh, A., and Singh, B. (2021). “Experimental
investigations on substitution of natural sand in concrete [21] Ojha, P. N., Singh, B., Kaura, P., and Singh, A. (2021).
with copper slag and blast furnace slag”, Journal of Asian “Lightweight geopolymer fly ash sand: An alternative to
Concrete Federation, Vol. 7, No.1, pp. 1-11. fine aggregate for concrete production”, Research on
Engineering Structures & Materials, Vol. 7, No. 3, pp. 375-391.
[12] Ojha, P. N., Singh, A., Singh, B., and Patel, V. (2021).
“Experimental investigation on use of ferrochrome [22] Ojha, P. N., Singh, P., Singh, B., Singh, A., Ajay, and Sagar,
slag as an alternative to natural aggregates in concrete A. (2023). “Experimental and FEM analysis for fracture
structures”, Research on Engineering Structures and performance evaluation of concrete made with recycled
Materials, Vol. 7, No. 2, pp. 225-244. construction and demolition waste aggregates”, Periodica
Polytechnica Civil Engineering, Vol. 67, No. 1, pp. 1-12.
[13] Arora, V. V., Singh, B., and Yadav, L. (2016). “Study on
flexural and fatigue behaviour of prestressed concrete [23] Kaura, P., Ojha, P. N., Singh, B., and Trivedi, A. (2024).
made with Portland pozzolana cement”, Asian Concrete “Investigation of mechanical and durability performance of
Federation Journal, Vol. 2, No. 1, pp. 15-23. concrete made with fly ash limestone composite cement”,
18 NCCBM International Conference and Exhibition
th
[14] Kaura, P., and Ojha, P. N. (2024). “Carbonation and
corrosion rate of concrete made with composite cement”, on Cement, Concrete and Building Materials, 27-29
th
10 International Conference on Concrete under Severe November 2024, Yashobhoomi, Dwarka, Delhi, India.
Conditions: Environment and Loading (CONSEC 2024), [24] Ojha, P. N., Singh, A., Singh, B., and Sen, S. (2023). “Studies
25-27 September 2024, Chennai, India. on PSC made with composite slag (mix of BF and LD slag)”,
ACI Materials Journal, Vol. 120, No. 1, pp. 143-154.
[15] Ojha, P. N., Singh, A., Singh, B., and Patel, V. (2022).
“Mechanical and durability properties of cement mortar [25] Arora, V. V., Singh, B., and Patel, V. (2019). “Durability
and concrete reinforced with glass micro fibre”, and corrosion studies in prestressed concrete made with
Research on Engineering Structures and Materials, Vol. 8, blended cement”, Asian Concrete Federation Journal,
No. 2, pp. 265-281. Vol. 5, No. 1, pp. 15-24.
[16] Kaura, P., Ojha, P. N., and Singh, B. (2023). “Performance [26] Ojha, P. N., Singh, B., Prakash, S., Singh, P., Mandre, M. K.,
of high volume fly ash concrete in structural application”, and Kumar, S. (2022). “Effect of high ratio fly ash on roller
Journal of Building Materials & Structures, Vol. 10. compacted concrete for dam construction”, Research on
pp. 1-15, doi : 10.34118/jbms.v10i1.2864 Engineering Structures & Materials, Vol. 8, No. 2,
pp. 233-251.
[17] Mohapatra, B. N., Kaura, P., Ojha, P. N., Singh, B., Kumar,
S., and Liju, V. (2023). “Fresh, hardened and durability [27] Ojha, P. N., Singh, B., Singh, P., Singh, A., and Mandre, M.
properties of concrete made with fly ash and limestone‑ K. (2022). “Study on effect of fly ash and limestone powder
based Portland composite cement”, Journal of Asian on compressive strength of roller compacted concrete for
Concrete Federation, Vol. 9, No. 1, pp. 1-16. dam construction”, Journal of Asian Concrete Federation,
Vol. 8, No. 1, pp. 37-50.
[18] Arora, V. V., Singh, B., Patel, V., and Trivedi, A. (2021).
“Evaluation of modulus of elasticity for normal and [28] Ojha, P. N., Mittal, P., Singh, A., Singh, B., and Arora,
high-strength concrete with granite and calc-granulite V. V. (2020). “Optimization and evaluation of ultra-high
aggregate”, Structural Concrete, Vol. 22, No. S1, performance concrete”, Asian Concrete Federation
pp. E143-E151. Journal, Vol. 6, No. 1, pp. 26-36.
96 THE INDIAN CONCRETE JOURNAL | JANUARY 2026
