Design and Analysis of Underground Structures
Saurav Rukhaiyar is a lecturer at the Dept. of Civil Engineering, Thapar Institute of Engineering & Technology since September 2017. He obtained his B-Tech in Civil Engineering in year 2010 from BIT Sindri Dhanbad, Jharkhand and M. Tech. in Geotechnical Engineering in year 2012 from IIT Roorkee. He continued his research interest in Geotechnical Engineering from IIT Roorkee and pursing his PhD on Topic “Strength behaviour of sandstone under cyclic and polyaxial states of stress. He has extensive experience in experimental testing of soil and rocks. He has a keen interest in rock mechanics, design of underground structures and stability analysis of slopes. His research areas include application of artificial intelligence in developing model for response of rock and rock structures.
- Rock Mechanics
- Design of underground structures
- Artificial Intelligence application in rock engineering problems
Membership of Professional Institutions, Associations and Societies
- Life member – Indian Geotechnical Society, India (LM-4046)
- Life member – Indian Society for rock mechanics and tunnelling technology, India (LM-2067)
- Rukhaiyar, S. and Samadhiya, N. K. (2017), ‘A polyaxial strength model for intact sandstone based on Artificial Neural Network’ International Journal of Rock mechanics and Mining sciences, Vol. 95, pp. 26-47; http://dx.doi.org/10.1016/j.ijrmms.2017.03.012. (Elsevier).
- Rukhaiyar, S., Alam, M. N. and Samadhiya, N. K. (2017), ‘A PSO-ANN hybrid model for predicting factor of safety of slope’ International Journal of Geotechnical, In Press, pp. 1-11; DOI: 10.1080/19386362.2017.1305652. (Tylor and Francis).
- Rukhaiyar, S. and Samadhiya, N. K. (2017), ‘Strength Behaviour of Sandstone Subjected to Polyaxial State of Stress’ International Journal of mining science and technology, In Press, https://doi.org/10.1016/j.ijmst.2017.06.022. (Elsevier)
- Rukhaiyar, S. and Samadhiya, N. K. (2017), ‘Triaxial behaviour of rockmass satisfying Modified Mohr-Coulomb and Generalized Hoek-Brown criterion’ International Journal of mining science and technology. (Elsevier, accepted for Publication)
- Rukhaiyar, S. and Samadhiya, N. K. (2017), ‘Strength behavior of plain cement concrete subjected to true-triaxial Compression.’ Canadian Journal of civil engineering. (NRC press, Major Revision Completed)
- Rukhaiyar, S. and Samadhiya, N. K. (2017), ‘Strength behavior of rocks under cyclic loading’ Indian Geotechnical Journal. In Press, pp. 1-11; DOI: https://doi.org/10.1007/s40098-017-0238-6. (Springer)
- Sajwan, G, Rukhaiyar, S. and Singh, M. (2016), ‘Polyaxial compressive strength of concrete cubes representing Rock’ Journal of Rock mechanics and tunnelling technology, India Vol. 22, No. 2, pp. 81-98.
- Rukhaiyar, S., Singh, M. and Pain, A. (2013), ‘A Study on numerical modelling of a rock slope based on modified mohr coulomb criterion’ Journal of Rock mechanics and tunnelling technology, India Vol. 19, No. 1, pp. 81-98.
- Vyas, M, Rukhaiyar, S. and Mittal, S. (2014), ‘Behavior of Slope under Dynamic Condition – An Experimental Study’ International Journal of Civil Engineering Research, India Vol. 5, No. 2, pp. 121-128.
- Rukhaiyar, S. and Samadhiya, N.K. (2017), ‘A quantitative comparison of five polyaxial strength criterion for Sandstone’ In. Proceedings of Conference on Numerical Modeling in Geomechanics (CoNMig-2017), IIT Roorkee.
- Rukhaiyar, S. and Samadhiya, N.K. (2016), ‘Analysis of tunnel considering Modified Mohr-Coulomb criterions’ In. Proceedings of Recent Advancement in Rock Engineering (RARE-2016), Bangluru. DOI: 10.2991/rare-16.2016.51.
- Rukhaiyar, S. and Samadhiya, N.K. (2016), ‘True Triaxial Testing of Synthetic Rock’ In. Proceedings of sixth Indian Rock Conference (INDOROCK-2016), IIT Bombay.
- Garg, A. and Rukhaiyar, S. (2015) ‘Variation of compressive strength of Recycled Aggregate Concrete (RAC) and Natural Aggregate Concrete (NAC) at elevated temperature’, In proceeding of UKIERI Concrete Congress, Jalandhar, Paper No. 342
- Rukhaiyar, S. and Samadhiya, N.K. (2015) ‘Effect of Cyclic Loading on Himalayan Rocks’, In. proceeding of 5th Indian Young Geotechnical Engineers Conference, (5th IYGEC - 2015), Vadodara: India.
- Rukhaiyar, S., Samadhiya, N.K. and Pain, A. (2013) ‘Artificial Neural Networks as a basis for predicting polyaxial strength of intact rock’, In. proceeding of 4th Indian Young Geotechnical Engineers Conference (4th IYGEC – 2013), Chennai, pp. 29-32.
- Rukhaiyar, S. and Samadhiya, N.K. (2013), ‘Stability Analysis of a Slope Section using Neural Network’ In. Proceedings of Fourth Indian Rock Conference (INDOROCK-2013), Solan, pp .420-430.
- Mittal, S., Chouhan, R. and Rukhaiyar, S. (2012),’ Liquefaction Behaviour of sand reinforced with nails’ In. Proceeding of Indian Geotechnical Conference (IGC-2012), New Delhi, Vol. 2, Paper No. H802
- One Day Indo-Korean workshop on Geotechnology for urban development (IK-GUD) at IIT Delhi 2012
- One Day workshop on ‘Rock Engineering’ by Dr. Nick R Barton at JUIT- Solan 2013
- Two Day National Workshop on Rock Engineering for Hilly Regions (REHR-2015) at IIT Roorkee 2015
Awards and Honours
- Best Paper Awards for the paper tittled ‘Stability Analysis of a slope section using Neural Network’ from Indian Society of Rock Mechanics and Tunneling Technology (ISRMTT). (Certificate and Cash Prize of Rs. 5000)
- Third Position for IDEAZ, a Technical Paper Presentation Competition at Cognizance 2011, IIT Roorkee. (Certificate and Cash Prize of Rs. 3000)
- First Prize for National Level Static Model competition at SANDHAN -2007, BIT Sindri. (Certificate and Cash Prize of Rs. 2000)
Description of Research Interests
Saurav Rukhaiyar's research interests are in design and analysis of underground structures, stability analysis of rock slopes, Behaviour study of rock under polyaxial states of stress, Application of artificial intelligence technique for modelling rock mechanics problems. He also has a research interest in behaviour study of concrete under multiaxial loading, Plasticity modelling of concrete and behaviour of recycled aggregate concrete.