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Pal, B and Ramaswamy, A (2024) A multi-scale approach to predict shrinkage and creep of cementitious composite in a hygro-thermo-chemo-mechanical framework-theoretical formulation and numerical validation. In: Mechanics of Materials, 188 . pp. 1-32.
Pal, B and Ramaswamy, A (2024) A Meso-scale study to predict high-temperature behavior of concrete structures in a hygral-thermal-chemical-mechanical framework. In: Construction and Building Materials, 421 .
Chechani, PV and Kumar, SB and Chakraborty, S and Anand, V and Pal, MK and Ramaswamy, A (2024) Prediction of fresh and hardened concrete properties using machine learning algorithms. In: Innovative Infrastructure Solutions, 9 (12).
Pal, B and Ramaswamy, A (2023) A multi-physics-based approach to predict mechanical behavior of concrete element in a multi-scale framework. In: Mechanics of Materials, 176 .
Waghmare, A and Ramaswamy, A (2022) Nonlinear Analysis of Reinforced Concrete Structural Elements. In: IABSE Symposium Prague 2022: Challenges for Existing and Oncoming Structures, 25-27 May 2022, Prague, pp. 1419-1426.
Das, S and Sharma, S and Ramaswamy, A and Roy, D and Reddy, JN (2021) A geometrically inspired model for brittle damage in compressible elastomers. In: Journal of Applied Mechanics, Transactions ASME, 88 (8).
Balagopal, R and Ramaswamy, A and Palani, GS and Prasad Rao, N (2020) Simplified bolted connection model for analysis of transmission line towers. In: Structures, 27 . pp. 2114-2125.
Reddy, DH and Ramaswamy, A (2020) Degradation of concrete elements under thermal and mechanical loads and its repair. In: IABSE Congress Christchurch 2020: Resilient Technologies for Sustainable Infrastructure, 3-5 Feb 2021, Christchurch, pp. 737-744.
Pal, B and Ramaswamy, A (2020) Meso-scale study of notched and un-notched plain concrete beam under three-point bending. In: IABSE Congress Christchurch 2020: Resilient Technologies for Sustainable Infrastructure, 3-5 Feb 2021, Christchurch, pp. 890-897.
Biswal, S and Reddy, DH and Ramaswamy, A (2019) Reducing uncertainties in estimating long-time prestress losses in concrete structures using a hygro-thermo-chemo-mechanical model for concrete. In: COMPUTERS & STRUCTURES, 211 . pp. 1-13.
Biswal, S and Ramaswamy, A (2018) Estimation of prestress losses in concrete structures over a long time. In: 40th IABSE Symposium in Nantes 2018: Tomorrow's Megastructures, 19 - 21 September 2018, Nantes, S3-21-S3-28.
Svetha, V and Harinadha Reddy, D and Ramaswamy, A (2018) Response of structural concrete assemblages to thermo-mechanical loads. In: 40th IABSE Symposium in Nantes 2018: Tomorrow's Megastructures, 19 - 21 September 2018, Nantes, S3-37-S3-44.
Hemalatha, T and Kishen, JMC and Ramaswamy, A (2017) Investigation on the relationship between microstructure and fracture properties of self-compacting concrete (SCC). In: Advances in Civil Engineering Materials, 6 (1). pp. 480-503.
Biswal, S and Ramaswamy, A (2017) Finite element model updating of concrete structures based on imprecise probability. In: MECHANICAL SYSTEMS AND SIGNAL PROCESSING, 94 . pp. 165-179.
Biswal, S and Ramaswamy, A (2017) Uncertainty based model averaging for prediction of long-time prestress losses in concrete structures. In: CONSTRUCTION AND BUILDING MATERIALS, 153 . pp. 469-480.
Biswal, S and Ramaswamy, A (2016) Measurement of existing prestressing force in concrete structures through an embedded vibrating beam strain gauge. In: MEASUREMENT, 83 . pp. 10-19.
Biswal, S and Ramaswamy, A (2015) Health Monitoring of Prestressed concrete structures based on finite element model updating with uncertainty. In: 10th International Conference on Mechanics and Physics of Creep, Shrinkage, and Durability of Concrete and Concrete Structures, SEP 21-23, 2015, Vienna, AUSTRIA, pp. 1447-1456.
Ramaswamy, A (2013) Alternate repair material systems for application to structural concrete. In: IABSE Workshop on Assessment, Upgrading and Refurbishment of Infrastructures, 06-08 May 2013, Rotterdam, Netherlands.
Guruprasad, YK and Ramaswamy, A (2013) Experimental assessment of concrete damage due to exposure to high temperature and efficacy of the repair system. In: 3rd International Workshop on Concrete Spalling due to Fire Exposure, SEP 25-27, 2013, Paris, FRANCE.