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دکتر حسین ملاعباسی

عضو هیات علمی

مرتبه علمی: استادیار

مقطع تحصیلی : دکترا

دانشکده :فنی مینودشت

گروه :مهندسی عمران

بیوگرافی

WORK EXPERIENCE

 

 

                                        

University

Feb, 2024- Present     

Sharif University of Technology, Visiting Scholar Professor, Tehran, Tehran Province, Iran

Feb, 2017- Feb, 2024    

Gonbad Kavous University, Assistant Professor, Gonbad Kavous, Golestan Province, Iran

 

 

Technical Expert

Feb 2013 - Sep 2015    

Shalodehaye Moghavem Omran Consulting Engineers Company (Resident and Supervisor Engineer)

July 2010 - June 2011   

Abadgaran Tabarestan Geotechnical Consulting Engineers Company (Interior Manager)

July 2008 - Jan 2009    

Darya Khak Pey Consulting Engineers Company (Expert)

 

EDUCATION AND TRAINING

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2011–2016

Ph.D. in Geotechnical Engineering

 

Babol Noshirvani University of Technology, Babol (Iran)

Dissertation Title: Laboratory Investigation on Mechanical Behavior of Babolsar Sand Stabilized with Cement and Zeolite

Supervisor: Dr. Issa Shooshpasha

2007–2010   

 Master of Science (MSc.) in Geotechnical Engineering

University of Guilan, Rasht (Iran)

Thesis Title: Liquefaction Zonation in Golestan Province of Iran with Evaluation of Lateral Spreading

Supervisor: Dr. Farzin Kalantary; Dr. MirAhmad Lashtehneshaee

Advisors: Dr. Behrooz Gatmiri; Dr. Ali Ghorbani

2003–2007     

Bachelor of Science (BSc.)

Ferdowsi University of Mashhad, Mashhad (Iran)

زمینه های تحقیقاتی

 

Soil Stabilization

State of the art material characterization approaches to identify valuable alternative sustainable materials for cement such as zeolite and microbiologically induced calcium carbonate precipitation (MICP) (tensile, unconfined compression, triaxial strength and life cycle).

 

Soft Computing Techniques in Geotechnical Engineering

Studies related to GMDH type neural network and robust optimization models in prediction of geotechnical soil parameters.

مقالات ژورنال

  1. A. Kordnaeij, R. Ziaee Moayad, P, Jafarpour and H. MolaAbasi, (2024), Laboratory investigation of liquefaction mitigation in sand using zeolite-cement injection, Accepted for publication in Soil Dynamics and Earthquake Engineering, (ISI, IF=4.2, Q1).
  2. M. E. Seif, H. MolaAbasi, H. Saba, S. M. Mirhosseini, (2024), Investigating the impact of nano-colloidal silica on sandy clay strength: Experimental results and stress-strain modeling insights, Construction and Building Materials, 438, 137105, (ISI, IF=7.4, Q1).
  3. M. N. Mirsadeghi, F. F. Masrour, H.MolaAbasi, M. Karakouzian, N. Libre, (2024), A Feasible Reuse of Waste Surgical Face Mask Fibers in Reinforcement of Wide-Range Cemented Sand with Various Porosities. International Journal of Geosynthetics and Ground Engineering,10(4), 61, (ISI, IF=2.3, Q2).
  4. A.R. Barfroosh, M. AlMostafa, I. Shooshpasha, H. MolaAbasi and M. Nehdi, (2024),  Triaxial drained behaviour of disposable face mask fibre reinforced sand, Geomechanics and Geoengineering, 1-17, (Scopus, SJR, IF=1.7, Q2).
  5. H. R. Barzoki, H. MolaAbasi, M. H. Mehdinejad, and O. Ataee (2024). An Experimental Study on the Effect of Disposable COVID-19 Face Masks on the Mechanical Properties of Clay, International Journal of Pavement Research and Technology, 1-12, (ISI, IF=3, Q2).
  6. V. Pesarakloo, S. H.Lajevardi, H. MolaAbasi, S.M. MirHosseini, (2024), Investigating the effect of Gorgan Bay’s sludge ash on the mechanical parameters of Gorgan loess soil at different moisture content and the same compaction energy, Sharif Journal of Civil Engineering, 1-14 (in Persian).
  7. M. M. Hajitaheriha, H. MolaAbasi, J. Li, M. Salahi, O. Ataee, (2024), Evaluation of uncertainty in shear-wave velocity based on CPT records using the robust optimization method, Civil Engineering Infrastructures Journal, 1-23, (ISI, IF=1, Q4).
  8. MolaAbasi, H. (2024). Splitting tensile strength of cement-stabilized and face mask fiber-reinforced sand, Sharif Journal of Civil Engineering, 1-8 (in Persian).
  9. S. Nasrollahpour, A. Tanhadoust, S. Kaur Brar, H. MolaAbasi, M. L. Nehdi, O. Ataee,  (2024). Multi-objective optimization of sustainable cement-zeolite improved sand based on life cycle assessment and artificial intelligence. F1000Research13, 257.
  10. H. MolaAbasi, R.J. Chenari, M. Payan, (2024), An Experimental Study on the Effect of Disposable COVID-19 Face Masks on the Mechanical Properties of Cement-Stabilized Sand, Environment, Development and Sustainability, In Press (ISI, IF=4.09, Q2).
  11. V. Pesarakloo, S.H. Lajevardi, H. MolaAbasi and S.M. Mirhosseini, (2023), Potential application of sludge pond ash as a novel additive for clay stabilization, Physics and Chemistry of the Earth, 133(1), 103534, (ISI, IF=3.7, Q2).
  12. H. MolaAbasi; O. Ataee; M. Naghdipour Mirsadeghi; F. Fattahi Masrour; A. Marani; M. Nehdi, (2023), Investigation of highly plastic clay stabilized with cement and zeolite using time-dependent pressure wave velocity, Materials in Civil Engineering (ASCE), DOI: .
  13. A. Khajeh, R. Jamshidi Chenari, P. Payan, H. MolaAbasi (2023), Assessing the effect of lime-zeolite on geotechnical properties and microstructure of reconstituted clay used as a subgrade soil, Physics and Chemistry of the Earth. 132(1), 103501 (ISI, IF=3.7, Q2).
  14. Kordnaeij, A., Moayed, R. Z., Jafarpour, P., Mansoori, A., & MolaAbasi, H. (2023). Polynomial neural network model to estimate the stress–strain behavior of zeolite-cement injected sand. Construction and Building Materials, 378, 131227, (ISI, IF=4.09, Q1).
  15. A. Khajeh, R. Jamshidi Chenari, P. Payan, H. MolaAbasi, (2023), Application of expanded polystyrene beads inclusion in lightening lime-zeolite treated clays: strength and stiffness assessment. Environment, Development and SustainabilityDOI: 10.1007/s10668-023-03535-z, (ISI, IF=4.09, Q2). 
  16. MolaAbasi, H. (2023). Novel Estimation of Time-Dependent Unconfined Compressive Strength of Sand Treated with Cement and Zeolite. Geotechnical and Geological Engineering41(5), 3217-3224(Scopus, SJR, IF=1.7, Q1).
  17. A. Esfandyaripour, S.H. Lajevardi, H. MolaAbasi, (2022), An Experimental Study to Examine the Effect of Fiber and Natural Pozzolan on the Failure Characteristics of a Cement Treated Sand, ICE Ground Improvement (Scopus, SJR, IF=1.7, Q1).
  18. H. Ahmadi Chenarboni, S.H. Lajevardi, H. MolaAbasi, E. Zeighami, (2022), Consolidation Behavior of the Expansive Clay Treated with Cement and Zeolite, Journal of Central South University, Accepted, (ISI, IF=1.716, Q2).
  19. H. MolaAbasi, P. Kharazmi, A. Khajeh, M. Saberian, R. Jamshidi Chenari, M. Harandi, Jie Li (2022), Low plasticity clay stabilized with cement and zeolite: An experimental and environmental impact study, Resources, Conservation and Recycling Journal, 184, No. 106408, https://doi.org/10.1016/j.resconrec.2022.106408, (ISI, IF=10.204, Q1).
  20. H. MolaAbasi, A. Khajeh, R.J. Chenari, M. Payan, (2022), A Framework to Predict the Load-Settlement Behavior of Shallow Foundations for Silty Clays and Sands using CPT Records, Soft Computing, 263545–3560, https://doi.org/10.1007/s00500-021-06485-8, (ISI, IF=3.643, Q2).
  21. A. Khajeh, R. Jamshidi Chenari, H. MolaAbasi, M. Payan, (2021), An experimental investigation on geotechnical properties of a clayey soil stabilized with lime and zeolite in base and subbase courses, Road Materials and Pavement Design, https://doi.org/10.1080/14680629.2021.1997789, (ISI, IF=3.792, Q1).
  22. A. Khajeh, S.A. Ebrahimi, H. MolaAbasi, R. Jamshidi Chenari, M. Payan, (2021), Effect of EPS beads in lightening a typical zeolite and cement-treated sand. Bulletin of Engineering Geology and the Environment, 80(1), 8615- 8632. https://doi.org/10.1007/s10064-021-02458-1, (ISI, IF=4.298, Q1).
  23. F.F.  Masrour, M.N. Mirsadeghi, H. Molaabasi, R. Jamshidi Chenari (2021), Effect of nanosilica on the macro and micro behavior of dispersive clays, ASCE's Journal of Materials in Civil Engineering, 33 (12), 04021349, https://doi.org/10.1061/(ASCE)MT.1943-5533.0003975, (ISI, IF=3.266, Q2).
  24. H. MolaAbasi, A. Khajeh, R. Jamshidi Chenari, (2021), Use of GMDH-type Neural Network to Model the Mechanical Behavior of a Cement-treated sand, Neural Computing and Applications, 33(1), 15305–15318, https://doi.org/10.1007/s00521-021-06157-6, (ISI, IF=5.606, Q1).
  25. H. Ahmadi Chenarboni, S.H. Lajevardi, H. MolaAbasi, E. Zeighami, (22 Feb 2021), The Effect of Zeolite and Cement Stabilization on the Mechanical Behavior of Expansive Soils, Construction and Building Materials, 272(12), 121630, https://doi.org/10.1016/j.conbuildmat.2020.121630, (ISI, IF=6.141, Q1).
  26. S.A. Naeini, R. Ziaie Moayed, A. Kordnaeij and H. Mola-Abasi, (July and August 2020), Prediction of subgrade reaction modulus of clayey soil using group method of data handling, Scientia Iranica, Transactions on Civil Engineering (A), 27(4), 1740-1750, https://doi.org/10.24200/SCI.2018.5586.1357, (ISI, IF=1.435, Q3).
  27. H. MolaAbasi, M. Saberian, A. Khajeh, J. Li, R. Jamshidi Chenari, (Dec 2020), Settlement predictions of shallow foundations for non-cohesive soils based on CPT records-polynomial model, Computers and Geotechnics, 128(1), 103811, https://doi.org/10.1016/j.compgeo.2020.103811, (ISI, IF=4.956, Q1).
  28. H. MolaAbasi, S. Naderi Semsani, M. Saberian, A. Khajeh, J. Li, M. Harandi, (10 Sep 2020), Evaluation of the long-term performance of stabilized sandy soil using binary mixtures: A micro-and macro-level approach, Journal of Cleaner Production, 267, 122209, https://doi.org/10.1016/j.jclepro.2020.122209, (ISI, IF=9.297, Q1).
  29. H. MolaAbasi, M. Saberian, S. Naderi Semsani, J. Li, A. Khajeh, (17 April 2020), Triaxial behavior of zeolite-cemented sand, ICE-Ground Improvement, 173(2), 82-92, https://doi.org/10.1680/jgrim.18.00009, (Scopus, SJR=0.518, Q2).
  30. H. MolaAbasi, M. Saberian, J. Li, (March 2019), Prediction of compressive and tensile strengths of zeolite-cemented sand using porosity and composition, Construction and Building Materials, 202(1), 784-795, https://doi.org/10.1016/j.conbuildmat.2019.01.065,  (ISI, IF=4.419, Q1).
  31. H.MolaAbasi, A. Khajeh, S. Naderi Semsan and A. Kordnaeij, (20 May 2019 ), Prediction of Zeolite-Cemented Sand Tensile Strength by GMDH type Neural Network, Adhesion Science and Technology, 33(15), 1611-1625, https://doi.org/10.1080/01694243.2018.1493020, (ISI, IF=1.365, Q2).
  32. H. MolaAbasi, A. Khajeh, S. Naderi Semsan and A. Kordnaeij, (23 Feb 2019), Predicting Stress-Strain Behavior of Zeolite-Cemented Sand based on Unconfined Compression Test using GMDH type Neural Network, Journal of Adhesion Science and Technology,33(9), 945-962, https://doi.org/10.1080/01694243.2019.1571659, (ISI, IF=0.56, Q4).
  33. A. Khajeh, H. MolaAbasi and S. Naderi Semsani, (Jan and Feb 2019) Parameters Controlling Tensile Strength of Zeolite-Cemented Sands, Scientia Iranica, Transactions on Civil Engineering (A), 26(1), 213-223, https://doi.org/10.24200/SCI.2017.4585, (ISI, IF=1.017, Q3).
  34. R. Moayed, A. Kordnaeij, H. Mola-Abasi, (June 2018), Elasticity modulus of clayey deposits estimation using group method of data handling type neural network, Measurement, 121, 335-343, https://doi.org/10.1016/j.measurement.2018.02.068, (ISI, IF=2.36, Q1).
  35. H. MolaAbasi, A. Khajeh & S. Naderi Semsani, (17 Jan 2018), Effect of the Ratio between Porosity and SiO2 and Al2O3 on Tensile Strength of Zeolite-Cemented Sands, Journal of Materials in Civil Engineering, 30(4), https://doi.org/10.1061/(ASCE)MT.1943-5533.0002197, (ISI, IF=1.984, Q2).
  36. H. Mola-Abasi, B, Kordtabar, A. Kordnaeij, (2018). Liquefaction prediction using CPT data by triangular chart identification, International Journal of Geotechnical Engineering, 12(4), 377-382. https://doi.org/10.1080/19386362.2017.1282399, (Scopus, SJR, IF=0.434, Q2).
  37. H. MolaAbasi and A. Eslami, (10 Jan 2018), Prediction of drained soil shear strength parameters of marine deposit from CPTu data using GMDH-type neural network, Marine Georesources & Geotechnology, 37(2), 180-189, https://doi.org/10.1080/1064119X.2017.1415400, (ISI, IF=1.984, Q2).
  38. H. Mola-Abasi, A. Khajeh, S. Naderi, (6 Nov 2017), Variables controlling tensile strength of stabilized sand with cement and zeolite, Journal of Adhesion Science and Technology, 32(9), 947-962, https://doi.org/10.1080/01694243.2017.1388052, (ISI, IF=1.12, Q2).
  39. H. MolaAbasi, A. Khajeh, S .Naderi Semsani, (19 Sep 2017), Porosity/(SiO2 and Al2O3 Particles) Ratio Controlling Compressive Strength of Zeolite-Cemented Sands, Geotechnical and Geological Engineering, 36(2), 949-958, https://doi.org/10.1007/s10706-017-0367-9, (Scopus, SJR=0.51, Q1).
  40. M. Hassanlourad, A. Ardakani, A. Kordnaeij, H. MolaAbasi, (21 Aug 2017), Dry unit weight of compacted soils prediction using GMDH-type neural network, The European Physical Journal Plus, 132,357, https://doi.org/10.1140/epjp/i2017-11623-5, (ISI, IF=1.52, Q2).
  41. R. Moayed, A. Kordnaeij, H. Mola-Abasi, (5 Aug 2017), Pressuremeter Modulus and Limit Pressure of Clayey Soils Using GMDH-Type Neural Network and Genetic Algorithms, Geotechnical and Geological Engineering, 36, 165–178, https://doi.org/10.1007/s10706-017-0314-9, (Scopus, SJR=0.51, Q1).
  42. H. MolaAbasi and I. Shooshpasha, (March and April 2017), Polynomial Models Controlling Strength of Zeolite-Cement-Sand Mixtures, Scientia Iranica, Transactions on Civil Engineering (A), 24(2), 526-536, https://doi.org/10.24200/SCI.2017.2415, (ISI, IF=0.679, Q1).
  43. A. Eslami, M. Alimirzaei, E. Aflaki and H. MolaAbasi, (2017), Deltaic Soil Behavior Classification (SBC) Using CPTu Records – Proposed Approach and Applied to Fifty-Four Case Histories, Marine Georesources & Geotechnology, 35(1), 62-79, https://doi.org/10.1080/1064119X.2015.1102185, (ISI, IF=0.761, Q2).
  44. H. MolaAbasi, U. Dikmen, (1Sep 2016), Letter to the Editor. Reply to: Comment on ‘Prediction of shear-wave velocity from CPT data at Eskişehir (Turkey), using a polynomial model’, Near Surface Geophysics, 14(6), 567 – 567, https://doi.org/10.3997/1873-0604.2016041, (ISI, IF=1.293, Q1).
  45. H. MolaAbasi, B. Kordtabar, A. Kordnaeij, (23 July 2016), Effect of Natural Zeolite and Cement Additive on the Strength of Sand, Geotechnical and Geological Engineering, 34, 1539–1551, https://doi.org/10.1007/s10706-016-0060-4, (Scopus, SJR=0.51, Q1).
  46. H. MolaAbasi and I. Shooshpasha, (Oct 2016), Influence of zeolite and cement additions on mechanical behavior of sandy soil, Rock Mechanics and Geotechnical Engineering, 8(5), 746-752, https://doi.org/10.1016/j.jrmge.2016.01.008, (Scopus, SJR=0.99, Q1).
  47. R. Moayed, A. Kordnaeij, H. Mola-Abasi, (2 June 2016), Compressibility indices of saturated clays by group method of data handling and genetic algorithms, Neural Computing and Applications, 28, 551–564, https://doi.org/10.1007/s00521-016-2390-9, (ISI, IF=1.49, Q2).
  48. H. MolaAbasi, I. Shooshpasha and A. Ebrahimi, (2016). Prediction of compression index of saturated clays (Cc) using polynomial models. Scientia Iranica, 23(2), 500-507, https://doi.org/10.24200/SCI.2016.2134, (ISI, IF=0.405, Q1).
  49. H. MolaAbasi, B. Kordtabar, A. Kordnaeij, (24 May 2016), Parameters controlling strength of zeolite–cement–sand mixture, International Journal of Geotechnical Engineering, 11(1), 72-79, https://doi.org/10.1080/19386362.2016.1186412, (Scopus, SJR=0.48, Q2).
  50. H. MolaAbasi and I. Shooshpasha, (21April 2016), Prediction of zeolite-cement-sand unconfined compressive strength using polynomial neural network, The European Physical Journal Plus,131, 108, https://doi.org/10.1140/epjp/i2016-16108-5, (ISI, IF=1.52, Q2).
  51. A. Kordnaeij, F. Kalantary, B. Kordtabar and H. MolaAbasi, (2015), Prediction of Index using the GMDH-type Neural Networks Based on Geotechnical Soil Properties, Soils and Foundations,55(6), 1335-1345, https://doi.org/10.1016/j.sandf.2015.10.001, (ISI, IF=0.761, Q2).
  52. H. Mola-Abasi, U. Dikmen and I. Shooshpasha, (2015), Prediction of shear-wave velocity from CPT data at Eskisehir (Turkey), using a polynomial model, Near Surface Geophysics, https://doi.org/10.3997/1873-0604.2015010, (ISI, IF=1.23, Q2).
  53. I. Shooshpasha, I. Amiri and H. MolaAbasi, (2015), An investigation of friction angle correlation with geotechnical properties for granular soils using GMDH type neural networks, Scientia Iranica, Transactions on Civil Engineering (A), 22(1), 157-164, (ISI, IF=1.02, Q1).
  54. A. Eslami, H. MolaAbasi, P. Tabatabaei shorijeh, (2014), A Polynomial model for Liquefaction Potential Prediction from CPT Data, Transactions on Civil Engineering (A), 22(1), 157-164, (ISI, IF=1.02, Q1).
  55. M. Sheikh, F. Sheykholeslami, S. Khoshhal, H. Mola-Abasi, D. D. Ganji & Houman B. Rokni, (2014) Effect of magnetic field on Cu–water nanofluid heat transfer using GMDH-type neural network, Neural Computing and Applications, 25(1), 171-178, https://doi.org/10.1007/s00521-013-1459-y, (ISI, IF=0.613, Q1).
  56. H. MolaAbasi, A. Eslami, P. Tabatabaei shorijeh, (2014), Shear Wave Velocity by Polynomial Neural Networks and Genetic Algorithms Based on Geotechnical Soil Properties, Arabian Journal for Science and Engineering, https://doi.org/10.1007/s13369-012-0525-6 (ISI, IF=0.33, Q2).
  57. F. Kalantary, H. MolaAbasi, M. Salahi, M. Veiskarami, (2013), Evaluation of Liquefaction Induced Lateral Displacements Using Robust Optimization Model, Scientia Iranica, 20(2), 157-164, https://doi.org/10.1016/j.scient.2012.12.025, (ISI, IF=0.56, Q1).

مقالات کنفرانس

A. Majlesi, H. MolaAbasi, P. Pishgah, R.J. Chenari, (2022), Implementation of hyperbolic load-deformation model in reliability-based design (RBD) of shallow foundations using some in-situ test results, ASCE Geo-Congress 2023.

طرح های پژوهشی

1-Autoclaved Aerated Concrete Production with Sludge Pond Ash from Gorgan Gulf and New Polymer Materials

Sharif University of Technology

2-Localization of Microbial Cement Production for Use in Golestan Province Loess soils Stabilization

Gonbad Kavous University

3-Investigation of Pressure Wave Velocity for Cement and Zeolite-Improved Expansive Soils
 

پایان نامه و رساله

تالیفات

 

1- Advanced Laboratory Testing in Geotechnical Engineering — From Concepts to Methods

which is in progress which will be published in Butterworth-Heinemann, Publisher: Elsevier.

2- Piezocone and Cone Penetration Test (CPTu and CPT) Applications in Foundation Engineering

Butterworth-Heinemann, Publisher: Elsevier (2019).

3- Correlations of Soil and Rock Properties in Geotechnical Engineering

Imam Khomeini International University Publications (2022)-Translating the book to Persian.

4- Soil Mechanics and Laboratory Manual

Gonbad Kavous University Publications (2022)- Translating the book to Persian.

دروس تدریس شده

Strength of Materials, Materials and Methods of Construction, Survey II, Technical Drawing, Road Construction, Soil Mechanics, NumericalAnalysis.

Soil Mechanics, Foundation Engineering, Soil Mechanics Laboratory, Site Investigation, Embankments, Soil Treatment, Application of Software in Geotechnical Engineering.

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