Department Publication of Civil Engineering

2018 

[1]               Saikia J. (2018). Liquefaction Potential Evaluation of Guwahati City– Conference Paper. 2nd International Conference on Civil Engineering for Sustainable Development Opportunities and Challenges (CESDOC), Assam Engineering College, Guwahati, India

[2]               Saikia J. (2018). Study of the engineering properties of crushed stone dust of Gauripur quarry and Rani quarry for their utility as construction material. Conference Paper NCRAST-2018.

[3]               Kaushik S. (2018). Design drift requirements for buildings with RC shear walls. 16th Symposium on Earthquake Engineering, 20-22 December 2018, Institute of Technology Roorkee, Roorkee, India. Paper No. 269

[4]               Kaushik S. (2018). Plastic hinge length at RC shear wall and floor slab junction. 2nd International Conference on Civil Engineering for Sustainable Development Opportunities and Challenges (CESDOC), 18-19 December 2018, Assam Engineering College, Guwahati, India, Paper No. SINO306

[5]               Kaushik, S., & Dasgupta, K. (2019). Seismic behaviour of RC slab–shear wall assemblage using nonlinear static and dynamic analyses. In Recent Advances in Structural Engineering, Volume 2 (pp. 219-231). Springer, Singapore.  http://doi.org/10.1007/978-981-13-0365-4_19 ISBN: 978-981-13-0364-7

2019 

[1]               Kaushik, S., & Dasgupta, K. (2019). Seismic behavior of slab-structural wall junction of RC building. Earthquake Engineering and Engineering Vibration, 18(2), 331-349. https://doi.org/10.1007/s11803-019-0507-8

[2]               Bhuyan, K., Sah, A. K., and Sharma, H. (March 2019). Practical Application of High Strength Concrete Matrix for Use in Defense Establishments, In Proceedings of the International UKIERI Concrete Congress, Jalandhar, India, pp. 90.

2021 

[1]               Kaushik, S., Saikia, T. N., Syed, S. M. H., Jafri, S., & Baruah, B. (2021). Response of Multistoried Building Considering Soil-Structural Interaction Under Lateral Loading. In Seismic Design and Performance (pp. 247-258). Springer, Singapore. https://doi.org/10.1007/978-981-33-4005-3_20 ISBN: 978-981-334-004-6

[2]               Kaushik, S., & Dasgupta, K. (2021). Seismic Response of Shear Wall–Floor Slab Assemblage. In Advances in Structural Vibration (pp. 105-115). Springer, Singapore. https://doi.org/10.1007/978-981-15-5862-7_10

[3]               Bhuyan, K., Jujjavarapu, K. K., & Sharma, H. (2021). Performance Evaluation of Two-Way RC Slab Subjected to Blast Loading Using Finite Element Analysis. In Advances in Structural Technologies (pp. 57-70). Springer, Singapore. https://doi.org/10.1007/978-981-15-5235-9_5

[4]               Kaushik, S., Saikia, T. N., Syed, S. M. H., Jafri, S., & Baruah, B. (2021). Response of Multistoried Building Considering Soil-Structural Interaction Under Lateral Loading. In Seismic Design and Performance (pp. 247-258). Springer, Singapore.

[5]               Kaushik, S. and Dasgupta, K. (2021). Analytical Study on Seismic Behavior of Rectangular Shear Wall Connected to Floor Slabs. 12th Structural Engineering Convection (SEC2020+1), NCDMM and MNIT Jaipur, Rajasthan, India, 17-19 December 2020 (rescheduled to 17-19 December 2021) (paper accepted for presentation)

2022

[1]               Kaushik, S. (2022). Seismic Response of RCC Building under Column Removal Scenario. International Research Journal of Engineering and Technology (IRJET). Volume 9, Issue 3, March 2022, S. No: 356.

[2]               Kaushik, S., Nath, S. S., and Das, T. (2022). Impact Assessment of Plastic Strips on Compressive Strength of Concrete. North-East Research Conclave, Sustainable Science and Technology (NERC 2022), Indian Institute of Technology Guwahati, Guwahati, India, 20-22 May 2022, (Track 6-Disaster Management).

[3]               Gangolu, J., Kumar, A., Bhuyan, K., & Sharma, H. (2022). Performance-based probabilistic capacity models for reinforced concrete and prestressed concrete protective structures subjected to missile impact. International Journal of Impact Engineering, 164, 104207. https://doi.org/10.1016/j.ijimpeng.2022.104207

[4]               Gangolu, J., Kumar, A., Bhuyan, K., & Sharma, H. (2022). Probabilistic demand models and performance-based fragility estimates for concrete protective structures subjected to missile impact. Reliability Engineering & System Safety, 223, 108497. https://doi.org/10.1016/j.ress.2022.108497

[5]               Kishore, K. B., Gangolu, J., Ramancha, M. K., Bhuyan, K., & Sharma, H. (2022). Performance-Based Probabilistic Deflection Capacity Models and Fragility Estimation for Reinforced Concrete Column and Beam Subjected to Blast Loading. Reliability Engineering & System Safety,  227, 108729. https://doi.org/10.1016/j.ress.2022.108729

[6]               Bhuyan, K., & Sharma, H. (2022). Reliability Analysis and Performance-Based Code Calibration for Slabs/Walls of Protective Structures subject to Air Blast Loading. Reliability Engineering & System Safety, 228, 108751. https://doi.org/10.1016/j.ress.2022.108751