ScJ17.

Tom Damion, Rolands Cepuritis, and Piyush Chaunsali (2022). “Sulfuric acid and citric acid attack of calcium sulfoaluminate-based binders.“ Cement and Concrete Composites, 130, 104524.

ScJ16.

Vaishnav Kumar Shenbagam, and Piyush Chaunsali (2022). “Influence of calcium hydroxide and calcium sulfate on early-age properties of non-expansive calcium sulfoaluminate belite cement.“ Cement and Concrete Composites, 128, 104444.

ScJ15.

Vaishnav Kumar Shenbagam, Rolands Cepuritis, and Piyush Chaunsali (2021). “Influence of exposure conditions on expansion characteristics of lime-rich calcium sulfoaluminate-belite blended cement.“ Cement and Concrete Composites, 118, 103932

ScJ14.

Chaunsali P., and Kumar S.V. (2020). “Calcium sulfoaluminate-belite cements: Opportunities and challenges.“ Indian Concrete Journal, 94(2), 18-25

ScJ13.

Uvegi H., Chaunsali P., Traynor B., and Olivetti E. (2019). “Reactivity of industrial wastes as measured through ICP-OES: A case study on siliceous Indian biomass ash.“ Journal of the American Ceramic Society, 102(12), 7678-7688

ScJ12.

Chaunsali P., Uvegi H., Traynor B., and Olivetti E. (2019). “Leaching characteristics of biomass ash-based binder in neutral and acidic media.“ Cement and Concrete Composites, 100, 92-98

ScJ11.

Chaunsali P., Ardeshirilajimi A., and Mondal P. (2018). “On the interaction of Class C fly ash with Portland cement–calcium sulfoaluminate cement binder.“ Materials and Structures/Materiaux et Constructions, 51(5), 131

ScJ10.

Chaunsali P., Uvegi H., Osmundsen R., Laracy M., Poinot T., Ochsendorf J., and Olivetti E. (2018). “Mineralogical and microstructural characterization of biomass ash binder.“ Cement and Concrete Composites, 89, 41-51

ScJ9.

Ardeshirilajimi A., Wu D., Chaunsali P., and Mondal P. (2017). “Effects of presoaked lightweight aggregate on deformation properties of ordinary Portland cement-calcium sulfoaluminate cement blends.“ ACI Materials Journal, 114(4), 643-652

ScJ8.

Chaunsali P., and Mondal P. (2016). “Hydration and early-age expansion of calcium sulfoaluminate cement-based binders: experiments and thermodynamic modeling.“ Journal of Sustainable Cement-Based Materials, 5(4), 259-267

ScJ7.

Chaunsali P., and Mondal P. (2016). “Physico-chemical interaction between mineral admixtures and OPC-calcium sulfoaluminate (CSA) cements and its influence on early-age expansion.“ Cement and Concrete Research, 80, 10-20

ScJ6.

Chaunsali P., and Mondal P. (2015). “Influence of Calcium Sulfoaluminate (CSA) Cement Content on Expansion and Hydration Behavior of Various Ordinary Portland Cement-CSA Blends.“ Journal of the American Ceramic Society, 98(8), 2617-2624

ScJ5.

Chaunsali P., and Mondal P. (2015). “Influence of mineral admixtures on early-age behavior of calcium sulfoaluminate cement.“ ACI Materials Journal, 112(1), 59-68

ScJ4.

Chaunsali P., and Peethamparan S. (2013). “Influence of the composition of cement kiln dust on its interaction with fly ash and slag.“ Cement and Concrete Research, 54, 106-113

ScJ3.

Chaunsali P., and Peethamparan S. (2013). “Novel cementitious binder incorporating cement kiln dust: Strength and durability.“ ACI Materials Journal, 110(3), 297-304

ScJ2.

Chaunsali P., and Peethamparan S. (2011). “Evolution of strength, microstructure and mineralogical composition of a CKD-GGBFS binder.“ Cement and Concrete Research, 41(2), 197-208

ScJ1.

Chaunsali P., and Peethamparan S. (2010). “Microstructural and mineralogical characterization of cement kiln dust-activated fly ash binder.“ Transportation Research Record, 2164, 36-45

ScC2.

Suta M., Cepuritis R., Vaishnav Kumar S., and Chaunsali P. (2020). “Investigation of possibility of using steel fibre reinforced self-stressing concrete (SFRSSC) in watertight concrete structures.“ Engineering for Rural Development

ScC1.

Chaunsali P., and Mondal P. (2014). “Early-age volume change and hydration of expansive cements.“ Proceedings of the 10th fib International PhD Symposium in Civil Engineering