JOURNALS
18. Islam MR, Tanvir ASM, Islam N, Alam MK, Rahman MA, Dey R (2024). Application of Ladle Furnace Slag on Strength Development of Expansive Clay under Variable Moisture Conditions. Transportation Infrastructure Geotechnology, DOI:10.1007/s40515-024-00524-1.
17. Debanath OC, Rahman MA, Farook SM, Islam MR (2024). Application of eco-friendly geopolymer binder to enhance the strength and swelling properties of expansive soils. Advances in Civil Engineering, ID: 9910728,1-14 DOI:10.1155/2024/9910728.
16.Nomura F, Konagai K, Rahman MA, Tajima Y (2024). Mud-mark-based estimations of mass-wasting processes caused by the 2008 Iwate-Miyagi Nairiku Earthquake, Japan. In: Abolmasov, B., et al. Progress in Landslide Research and Technology, Volume 3 Issue 1, 293-306. Progress in Landslide Research and Technology. Springer, Cham. https://doi.org/10.1007/978-3-031-55120-8_20
15. Debanath OC, Rahman MA, Chowdhury SA, Ahmed RU, Hassan SN, Roy E (2021) Effect of fly-ash on the strength development of coastal soils – a case study for the southern coastal zone of Bangladesh. Malaysian J. Civ Eng. 33(1): 9-14, DOI: 10.11113/mjce.v33.16233.
14. Rahman MA, Tabassum N, Islam MR (2021) Seismic Slope Failures: A Numerical Investigation by the Smoothed Particle Hydrodynamics (SPH). Innov. Infrastruct. Solut. 6,155,DOI: 10.1007/s41062-021-00523-y.
13. Rahman MA, Tabassum N, Islam MR (2021) Different aspects of slope failures considering large deformation: application of Smoothed Particle Hydrodynamics (SPH). Innov. Infrastruct. Solut. 6, 37, DOI: 10.1007/s41062-020-00405-9.
12. Sheikh MR, Nakata Y, Tashita T, Rahman MA, Tusar MAU (2021) Assessment of Rainfall Triggering Landslide in Chittagong Area of Bangladesh from the Geotechnical and Geomorphological Perspective. Timorese Academic Journal of Science and Technology, Vol. 4: 9-21.
11. Islam MR, Rahman MA, Hayano K (2020) Application of smoothed particle hydrodynamics (SPH) for simulating various geotechnical problems. SN Appl Sci 2:687, DOI: 10.1007/s42452-020-2379-y.
10. Rahman MA, Ahmed S, Imam MO (2020) Rational Way of Estimating Liquefaction Severity: An Implication for Chattogram, the Port City of Bangladesh. Geotech Geol Eng 38:2359–2375, DOI: 10.1007/s10706-019-01134-2.
9. Islam MR, Hayano K, Rahman MA (2019) Insights into effects of seepage on failure of breakwater mound: Experimental and Numerical investigations. Indian Geotech J 49:531–542, DOI: 10.1007/s40098-019-00356-8
8. Rahman MA, Konagai K (2018) A hands-on approach to estimate debris flow velocity for rational mitigation of debris hazard. Can Geotech J 55:941–955, DOI: 10.1139/cgj-2017-0211.
7. Rahman MA, Konagai K (2017) Substantiation of debris flow velocity from super-elevation: a numerical approach. Landslides 14:633–647, DOI: 10.1007/s10346-016-0725-3.
6. Konagai K, Pokhrel RM, Ikeda T, Shiga M, Rahman MA, Okuda H (2016) Follow-up report of damage caused by the Gorkha Earthquake, Nepal, of April 25 th , 2015. JSCE J Disaster FactSheets.
5. Rahman MA, Hashimoto T, Konagai K (2015) An attempt for velocity estimation of Nebukawa Debris flow triggered by the Great Kanto Earthquake, 1923. J Japan Soc Civ Eng Ser A1 (Structural Eng Earthq Eng 71:I_387-I_394, DOI: 10.2208/jscejseee.71.i_387.
4. Rahman MA, Taniyama H (2015) Analysis of a buried pipeline subjected to fault displacement: A DEM and FEM study. Soil Dyn Earthq Eng 71:49–62, DOI: 10.1016/j.soildyn.2015.01.011.
3. Ullah MS, Rahman MA (2015) Evaluation of different aspects of recycled aggregate and recycled aggregate concrete. Malaysian J Civ Eng 27:479–488.
2. Rahman MA, Ullah MS (2012) Seismic risk assessment using different soil conditions. Can J Environ Constr Civ Eng 3:47–51.
1. Islam MM, Islam MS, Rahman MA, Das A (2011) Strength behaviour of mortar using slag as partial replacement of cement. MIST J GALAXY 3:, DOI: 10.3329/mist.v3i0.8053.
17. Debanath OC, Rahman MA, Farook SM, Islam MR (2024). Application of eco-friendly geopolymer binder to enhance the strength and swelling properties of expansive soils. Advances in Civil Engineering, ID: 9910728,1-14 DOI:10.1155/2024/9910728.
16.Nomura F, Konagai K, Rahman MA, Tajima Y (2024). Mud-mark-based estimations of mass-wasting processes caused by the 2008 Iwate-Miyagi Nairiku Earthquake, Japan. In: Abolmasov, B., et al. Progress in Landslide Research and Technology, Volume 3 Issue 1, 293-306. Progress in Landslide Research and Technology. Springer, Cham. https://doi.org/10.1007/978-3-031-55120-8_20
15. Debanath OC, Rahman MA, Chowdhury SA, Ahmed RU, Hassan SN, Roy E (2021) Effect of fly-ash on the strength development of coastal soils – a case study for the southern coastal zone of Bangladesh. Malaysian J. Civ Eng. 33(1): 9-14, DOI: 10.11113/mjce.v33.16233.
14. Rahman MA, Tabassum N, Islam MR (2021) Seismic Slope Failures: A Numerical Investigation by the Smoothed Particle Hydrodynamics (SPH). Innov. Infrastruct. Solut. 6,155,DOI: 10.1007/s41062-021-00523-y.
13. Rahman MA, Tabassum N, Islam MR (2021) Different aspects of slope failures considering large deformation: application of Smoothed Particle Hydrodynamics (SPH). Innov. Infrastruct. Solut. 6, 37, DOI: 10.1007/s41062-020-00405-9.
12. Sheikh MR, Nakata Y, Tashita T, Rahman MA, Tusar MAU (2021) Assessment of Rainfall Triggering Landslide in Chittagong Area of Bangladesh from the Geotechnical and Geomorphological Perspective. Timorese Academic Journal of Science and Technology, Vol. 4: 9-21.
11. Islam MR, Rahman MA, Hayano K (2020) Application of smoothed particle hydrodynamics (SPH) for simulating various geotechnical problems. SN Appl Sci 2:687, DOI: 10.1007/s42452-020-2379-y.
10. Rahman MA, Ahmed S, Imam MO (2020) Rational Way of Estimating Liquefaction Severity: An Implication for Chattogram, the Port City of Bangladesh. Geotech Geol Eng 38:2359–2375, DOI: 10.1007/s10706-019-01134-2.
9. Islam MR, Hayano K, Rahman MA (2019) Insights into effects of seepage on failure of breakwater mound: Experimental and Numerical investigations. Indian Geotech J 49:531–542, DOI: 10.1007/s40098-019-00356-8
8. Rahman MA, Konagai K (2018) A hands-on approach to estimate debris flow velocity for rational mitigation of debris hazard. Can Geotech J 55:941–955, DOI: 10.1139/cgj-2017-0211.
7. Rahman MA, Konagai K (2017) Substantiation of debris flow velocity from super-elevation: a numerical approach. Landslides 14:633–647, DOI: 10.1007/s10346-016-0725-3.
6. Konagai K, Pokhrel RM, Ikeda T, Shiga M, Rahman MA, Okuda H (2016) Follow-up report of damage caused by the Gorkha Earthquake, Nepal, of April 25 th , 2015. JSCE J Disaster FactSheets.
5. Rahman MA, Hashimoto T, Konagai K (2015) An attempt for velocity estimation of Nebukawa Debris flow triggered by the Great Kanto Earthquake, 1923. J Japan Soc Civ Eng Ser A1 (Structural Eng Earthq Eng 71:I_387-I_394, DOI: 10.2208/jscejseee.71.i_387.
4. Rahman MA, Taniyama H (2015) Analysis of a buried pipeline subjected to fault displacement: A DEM and FEM study. Soil Dyn Earthq Eng 71:49–62, DOI: 10.1016/j.soildyn.2015.01.011.
3. Ullah MS, Rahman MA (2015) Evaluation of different aspects of recycled aggregate and recycled aggregate concrete. Malaysian J Civ Eng 27:479–488.
2. Rahman MA, Ullah MS (2012) Seismic risk assessment using different soil conditions. Can J Environ Constr Civ Eng 3:47–51.
1. Islam MM, Islam MS, Rahman MA, Das A (2011) Strength behaviour of mortar using slag as partial replacement of cement. MIST J GALAXY 3:, DOI: 10.3329/mist.v3i0.8053.
PROCEEDINGS (REVIEWED)
28. Sabbir M M H, Ferdousi T R, Rahman MA, Debanath OC (2024). Settlement reduction by Deep Cement Mixed column: A numerical study. Proceedings of 1st IUT International Conference on Core Engineering & Technology (IUT-ICCET).
27. Banu M. Mukta, Rahman MA (2024). Experimental investigation on geopolymer-based deep mixing method on soft soils. Proceedings of Geo-Structures 2024: Innovation and Experience with Earth Retaining Structures, 270-279.
26. Baidya A, Gupta A, Debanath OC, Rahman MA, (2024). Assessment of soil variability in the built-up areas of the Chattogram Metropolitan Area. Proceedings of the 1st International Conference on Recent Innovation in Civil Engineering and Architecture for Sustainable Development (IICASD-2024).
25. Joy AKM Sajid Uddin Ahmed, Chowdhury A, Sultan MT, Rahman MA (2024). Appraise the compaction characteristics of clay-steel slag mixtures for ground improvement. Proceedings of the 4th International Graduate Studies Congress (IGSCONG’24), pp: 719-725.
24. Ullah M, Joy AR, Debanath OC, Rahman MA (2024). A numerical study on the response of soft soils amended by pre-fabricated vertical drain. Proceedings of the 4th International Graduate Studies Congress (IGSCONG’24), pp: 726-733.
23. Mahmud MF, Chowdhury A, Rahman MA (2024). Rational application of analytical solutions in the estimation of bearing capacity. Proceedings of the 7th International Conference on Civil Engineering for Sustainable Development (ICCESD).
22. Mamun MA, Hassan MR, Banu MM, Rahman MA (2024). Sand-geopolymer mixture on strength development of soft soils: an experimental investigation. Proceedings of the 7th International Conference on Civil Engineering for Sustainable Development (ICCESD).
21. Nabi MH, Acharjee S, Banu MM, Rahman MA (2023). Effect of geopolymer contents on strength development of soft soils. Proceedings of International Conference on Planning, Architecture and Civil Engineering, PP: 554-559.
20. Hossain, MN, Ahamed SI, Debanath OC, Rahman MA (2022). Geopolymer stabilization of soft soil for road construction: Bangladesh perspective. Proceedings of ICRICE, Paper ID 63.
19. Minhajunnabi M, Rahman MA, Debanath OC (2022). Field performance and numerical evaluation of diaphragm wall at multi-lane road tunnel under the River Karnaphuli in Bangladesh. Proceedings of the 6th International Conference on Civil Engineering for Sustainable Development (ICCESD), ISBN 978-984-35-1972-6, ICCESD-2022-4116: 1-6.
18. Taj TH, Rahman F, Islam MR, Rahman MA, Hossain MI, Hossain SA, Islam MM (2022). Alkali activated fly ash and slag combination for soil cement mixing piles. Proceedings of International Conference on Transportation and Development, PP: 133-142.
17. Das S, Rahman MA, Farooq SM (2021). Response analysis of buried pipeline under seismic action: A numerical study. Proceedings of International Conference on Planning, Architecture and Civil Engineering, PP: 1-6
16. Islam S, Islam H, Debanath OC, Rahman MA, Farooq SM (2021). Justification of residue material in ground improvement of coastal soils: an application of coir fiber. Submitted to the 7th International Conference on Structure, Engineering & Environment (SEE), Pattaya, Thailand, ISBN: 978-4-909106070 C3051.
15. Das S, Rahman MA, Farooq SM (2020) Buried pipeline under seismic excitations: a review. In: Proceedings of the 5th International Conference on Civil Engineering for Sustainable Development (ICCESD 2020). pp 1–9
14. Tabassum N, Rahman MA, Islam MR (2020) Parametric sensitivity in large deformation analysis by Smoothed Particle Hydrodynamics (SPH). In: Proceedings of the 5th International Conference on Civil Engineering for Sustainable Development (ICCESD 2020). pp 1–11
13. Debanath OC, Rahman MA, Farooq SM (2019) Use of fly ash based geopolymer for stabilization of expansive soil. 9th Int Conf Geotech Constr Mater Environ 344–347
12. Tabassum N, Rahman MA, Islam MR (2019) Evaluation of numerical approach in slope stability analysis considering large deformation of geo-materials. In: 9th Int. Conf. on Geotechnique, Construction Materials and Environment. pp 96–101
11. Tabassum N, Rahman MA, Uddin MN, Singha P (2019) A geostatistical approach to develop the soil zonation map: an application for Chattogram city. In: 9th Int. Conf. on Geotechnique, Construction Materials and Environment. pp 102–106
10. Rahman MS, Farooq SM, Rahman MA (2018) Improvement of soft soil by physical and chemical interaction. In: 4th International Conference on Advances in Civil Engineering 2018 (ICACE 2018). pp 368–373
9. Sarker A, Iqbal MB, Rahman MM, A-Noor, MC, Rahman MA, Islam MR (2018) Optimum fly ash to increase the strength of subgrade. In: 4th International Conference on Advances in Civil Engineering. pp 828–833
8. Rahman MA, Konagai K (2017) Rational way to estimate velocities of earthquake-induced debris flow from super-elevations. In: 16th World Conference on Earthquake Engineering. pp 1–8
7. Rahman MA, Konagai K (2016) A numerical curved flume test for debris flow velocity estimation: justification of using super-elevation. In: 18th International Summer Symposium. pp 41–42
6. Rahman MA, Hashimoto T, Konagai K (2014) An attempt for velocity estimation of Nebukawa debris flow triggered by the Great Kanto Earthquake, 1923. In: 34th Earthquake Engineering Symposium of JSCE. pp 1–8
5. Rahman MA, Taniyama H (2013) Analysis of buried pipeline owing to reverse fault movement accounting for soil-pipe interaction. In: 68th JSCE Annual Meeting
4. Rahman MA, Taniyama H. Response analysis of strike-slip fault movement on buried pipeline. Asian Conf. Civil, Mater. Environ. Sci., 2013, p. 78–89.
3. Rahman MA, Taniyama H (2013) Response analysis of buried pipeline subjected to earthquake faulting : A DEM and FEM simulation. In: 13th Japan Symposium on Rock Mechanics & 6th Japan-Korea Joint Symposium on Rock Engineering. pp 829–833
2. Rahman MA, Taniyama H (2012) Numerical analysis of buried pipeline subjected to fault displacement. In: 5th ADB-JSP Scholar’s Research Forum. pp 24–26
1. Rahman MA, Ullah MS (2012) Assessment of seismic vulnerability using different site conditions. In: 1st International Conference on Civil Engineering for Sustainable Development
27. Banu M. Mukta, Rahman MA (2024). Experimental investigation on geopolymer-based deep mixing method on soft soils. Proceedings of Geo-Structures 2024: Innovation and Experience with Earth Retaining Structures, 270-279.
26. Baidya A, Gupta A, Debanath OC, Rahman MA, (2024). Assessment of soil variability in the built-up areas of the Chattogram Metropolitan Area. Proceedings of the 1st International Conference on Recent Innovation in Civil Engineering and Architecture for Sustainable Development (IICASD-2024).
25. Joy AKM Sajid Uddin Ahmed, Chowdhury A, Sultan MT, Rahman MA (2024). Appraise the compaction characteristics of clay-steel slag mixtures for ground improvement. Proceedings of the 4th International Graduate Studies Congress (IGSCONG’24), pp: 719-725.
24. Ullah M, Joy AR, Debanath OC, Rahman MA (2024). A numerical study on the response of soft soils amended by pre-fabricated vertical drain. Proceedings of the 4th International Graduate Studies Congress (IGSCONG’24), pp: 726-733.
23. Mahmud MF, Chowdhury A, Rahman MA (2024). Rational application of analytical solutions in the estimation of bearing capacity. Proceedings of the 7th International Conference on Civil Engineering for Sustainable Development (ICCESD).
22. Mamun MA, Hassan MR, Banu MM, Rahman MA (2024). Sand-geopolymer mixture on strength development of soft soils: an experimental investigation. Proceedings of the 7th International Conference on Civil Engineering for Sustainable Development (ICCESD).
21. Nabi MH, Acharjee S, Banu MM, Rahman MA (2023). Effect of geopolymer contents on strength development of soft soils. Proceedings of International Conference on Planning, Architecture and Civil Engineering, PP: 554-559.
20. Hossain, MN, Ahamed SI, Debanath OC, Rahman MA (2022). Geopolymer stabilization of soft soil for road construction: Bangladesh perspective. Proceedings of ICRICE, Paper ID 63.
19. Minhajunnabi M, Rahman MA, Debanath OC (2022). Field performance and numerical evaluation of diaphragm wall at multi-lane road tunnel under the River Karnaphuli in Bangladesh. Proceedings of the 6th International Conference on Civil Engineering for Sustainable Development (ICCESD), ISBN 978-984-35-1972-6, ICCESD-2022-4116: 1-6.
18. Taj TH, Rahman F, Islam MR, Rahman MA, Hossain MI, Hossain SA, Islam MM (2022). Alkali activated fly ash and slag combination for soil cement mixing piles. Proceedings of International Conference on Transportation and Development, PP: 133-142.
17. Das S, Rahman MA, Farooq SM (2021). Response analysis of buried pipeline under seismic action: A numerical study. Proceedings of International Conference on Planning, Architecture and Civil Engineering, PP: 1-6
16. Islam S, Islam H, Debanath OC, Rahman MA, Farooq SM (2021). Justification of residue material in ground improvement of coastal soils: an application of coir fiber. Submitted to the 7th International Conference on Structure, Engineering & Environment (SEE), Pattaya, Thailand, ISBN: 978-4-909106070 C3051.
15. Das S, Rahman MA, Farooq SM (2020) Buried pipeline under seismic excitations: a review. In: Proceedings of the 5th International Conference on Civil Engineering for Sustainable Development (ICCESD 2020). pp 1–9
14. Tabassum N, Rahman MA, Islam MR (2020) Parametric sensitivity in large deformation analysis by Smoothed Particle Hydrodynamics (SPH). In: Proceedings of the 5th International Conference on Civil Engineering for Sustainable Development (ICCESD 2020). pp 1–11
13. Debanath OC, Rahman MA, Farooq SM (2019) Use of fly ash based geopolymer for stabilization of expansive soil. 9th Int Conf Geotech Constr Mater Environ 344–347
12. Tabassum N, Rahman MA, Islam MR (2019) Evaluation of numerical approach in slope stability analysis considering large deformation of geo-materials. In: 9th Int. Conf. on Geotechnique, Construction Materials and Environment. pp 96–101
11. Tabassum N, Rahman MA, Uddin MN, Singha P (2019) A geostatistical approach to develop the soil zonation map: an application for Chattogram city. In: 9th Int. Conf. on Geotechnique, Construction Materials and Environment. pp 102–106
10. Rahman MS, Farooq SM, Rahman MA (2018) Improvement of soft soil by physical and chemical interaction. In: 4th International Conference on Advances in Civil Engineering 2018 (ICACE 2018). pp 368–373
9. Sarker A, Iqbal MB, Rahman MM, A-Noor, MC, Rahman MA, Islam MR (2018) Optimum fly ash to increase the strength of subgrade. In: 4th International Conference on Advances in Civil Engineering. pp 828–833
8. Rahman MA, Konagai K (2017) Rational way to estimate velocities of earthquake-induced debris flow from super-elevations. In: 16th World Conference on Earthquake Engineering. pp 1–8
7. Rahman MA, Konagai K (2016) A numerical curved flume test for debris flow velocity estimation: justification of using super-elevation. In: 18th International Summer Symposium. pp 41–42
6. Rahman MA, Hashimoto T, Konagai K (2014) An attempt for velocity estimation of Nebukawa debris flow triggered by the Great Kanto Earthquake, 1923. In: 34th Earthquake Engineering Symposium of JSCE. pp 1–8
5. Rahman MA, Taniyama H (2013) Analysis of buried pipeline owing to reverse fault movement accounting for soil-pipe interaction. In: 68th JSCE Annual Meeting
4. Rahman MA, Taniyama H. Response analysis of strike-slip fault movement on buried pipeline. Asian Conf. Civil, Mater. Environ. Sci., 2013, p. 78–89.
3. Rahman MA, Taniyama H (2013) Response analysis of buried pipeline subjected to earthquake faulting : A DEM and FEM simulation. In: 13th Japan Symposium on Rock Mechanics & 6th Japan-Korea Joint Symposium on Rock Engineering. pp 829–833
2. Rahman MA, Taniyama H (2012) Numerical analysis of buried pipeline subjected to fault displacement. In: 5th ADB-JSP Scholar’s Research Forum. pp 24–26
1. Rahman MA, Ullah MS (2012) Assessment of seismic vulnerability using different site conditions. In: 1st International Conference on Civil Engineering for Sustainable Development