Dr. Nazrul Islam

Professor
Islamic University Madina, Saudi Arabia

Highest Degree
Ph.D. in Structural Engineering from Indian Institute of Technology, India

My URL
https://livedna.org/91.11068

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Biography

Dr. Nazrul Islam is currently working as Professor at Islamic University Madina, Saudi Arabia. He has completed his Ph.D. in Structural Engineering from Indian Institute of Technology, India. He is having 30 years teaching experience and 23 research experiences. Previously he was appointed as Lecturer, Reader and Professor at Jamia Millia Islamia, New Delhi. He has successfully supervised 2 PhD, 5 M.Tech students, and 25 B.Tech students. Dr. Nazrul received honors includes The Cambridge Certificate for outstanding Engineering achievement 2012 awarded by IBC, Great Britain, reviewed many research papers of Structural Engineering and Mechanics, an international Journal, CV published in MARQUIS Who’s Who in the World - 2008, USA, CV published in MARQUIS Who’s Who in Science and Engineering-2006, USA, and offered to Chair WCCM-III, (World Conference on Computational Mechanics) Chiba, Japan. He is life member of Indian Society of Technical Education (ISTE), India, and member of Society of Engineers, London. He has 28 research articles in international journals as well as 36 papers in national and international conferences contributed as author/co-author.

Area of Interest:

Physical Science Engineering
Civil Engineering
Structural Reliability
Structural Dynamics
Off-Shore Structures

Selected Publications

  1. Dhiman, S., M. Nauman and N. Islam, 2015. Behaviour of multistory steel structure with different types of bracing systems (a software approach). Behav., 4: 70-82.

  2. Zaheer, M.M., N. Islam and M.M. Aslam, 2014. Response of double pendulum compliant offshore tower to collinear wave and current forces. Int. J. Innovative Res. Sci. Eng. Technol., 3: 8398-8411.

  3. Ahad, A., N. Islam and A. Jain, 2014. Fluctuating wind response of double hinged articulated of shore platform. Global Sci. Technol. J., 2: 31-41.

  4. Nauman M. and N. Islam, 2014. Behaviour of RCC multistorey structure with and without infill walls. Int. J. Innovative Res. Sci. Eng. Technol., 3: 8455-8465.

  5. Atreya, P., N. Islam, M. Alam and S.D. Hasan, 2014. Dynamic stability of articulated offshore tower under seismic loading. Int. J. Eng. Innovative Technol., 4: 137-147.

  6. Jain A. and N. Islam, 2013. Use of flyash as partial replacement of sand in cement mortar. Int. J. Eng. Innovative Technol., 2: 1532-1539.

  7. Mohammed N. and I. Nazrul, 2013. Behaviour of multistorey RCC structure. Int. J. Innovative Res. Sci. Eng. Technol., 2: 7465-7478.

  8. Atreya, P., N., Islam, M. Alam and S.D. Hasan, 2013. Seismic response and stability analysis of single hinged articulated tower. Open j. civil eng., 3: 234-241.
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  9. Atrey, P., I. Nazrul, M. Alam, and S.D. Hassan, 2013. Dynamic stability analysis of compliant offshore structures - a case study of single hinged articulated tower. Int. J. Innovative Res. Sci. Eng. Technol., 2: 6081-6093.

  10. Atrey, P., I. Nazrul, M. Alam, and S.D. Hassan, 2013. Application of phase plot for dynamic stability analysis of compliant offshore structures. Int. J. Eng. Innovative Technol., 3: 388-395.

  11. Aslam, M., N. Islam, M.M. Zaheer and M. Alam, 2013. Comparative response of double hinged ALP using airy`s and stoke`s wave theories. Int. J. Eng. Innovative Technol., 2: 1532-1539.

  12. Aslam, M., N. Islam, M.M. Zaheer and M. Alam, 2013. Behaviour of double pendulum loading platform under ocean current. Int. J. Eng. Innovative Technol., 2: 2145-2152.

  13. Zaheer, M.M. and N. Islam, 2012. Stochastic response of a double hinged articulated leg platform under wind and waves. J. Wind Eng. Ind. Aerodyn., 111: 53-60.
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  14. Zaheer M.M. and N. Islam, 2012. Dynamics of bi-articulated tower under various sea environments. J. Eng. Struct., .

  15. Hasan, S. and N. Islam, 2011. Strength-based seismic reliability of a compliant offshore tower. Adv. Struct. Eng., 14: 419-429.
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  16. Zaheer, M.M. and N. Islam, 2010. Reliability analysis of universal joint of a compliant platform. Fatigue Fract. Eng. Mater. Struct., 33: 408-419.
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  17. Islam, N., S.D. Hasan and S. Ahmad, 2010. Double-hinged articulated offshore tower under seismic excitation. J. Earthquake Tsunami, 4: 197-214.
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  18. Hasan, S.D., N. Islam and K. Moin, 2010. Multihinged articulated offshore tower under vertical ground excitation. J. Struct. Eng., 137: 469-480.

  19. Hasan, S.D., N. Islam and K. Moin, 2010. A review of fixed offshore platforms under earthquake forces. Struct. Eng. Mech., 35: 479-491.
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  20. Zaheer M.M. and N. Islam, 2009. A comparative study of seismic and wind responses of articulated loading platform. Invertis J. Sci. Technol., 2: 98-107.

  21. Islam, N., S.D. Hasan, M. Zaheer and K. Moin, 2009. Comparative seismic response of multi-hinged articulated offshore tower. J. Struct. Eng., 11: 7-18.

  22. Islam, N., M.M. Zaheer and S. Ahmed, 2009. Response of double hinged articulated tower platforms to wind forces. Wind Struct., 12: 103-120.
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  23. Islam, N., M.M. Zaheer and S. Ahmed, 2009. Double hinged articulated tower interaction with wind and waves. J. Wind Eng. Ind. Aerodyn., 97: 287-297.
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  24. Hasan, S.D., N. Islam and K. Moin, 2009. Earthquake response of a multi-articulated offshore tower in random sea. J. Seismology Earthquake Eng., 11: 49-54.
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  25. Zaheer, M.M. and N. Islam, 2008. Aerodynamic response of articulated towers: state-of-the-art. Wind Struct., 11: 97-120.

  26. Islam, N. and S. Ahmad, 2007. Reliability of articulated tower joint against random base shear. Struct. Eng. Mech., 27: 33-48.

  27. Islam, N. and S. Ahmad, 2006. Earthquake response of articulated off-shore tower. Eur. Earthquake Eng., 20: 48-58.

  28. Islam, N. and S. Ahrnad, 2003. Nonlinear seismic response of articulated offshore tower. Defence Sci. J., 53: 105-113.
Member since February, 2016