https://orcid.org/0000-0001-5525-5199
Citations (31)
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Mohsen Salehi, Meysam Bayat, Mohsen Saadat & Masoud Nasri. (2023) Prediction of unconfined compressive strength and California bearing capacity of cement- or lime-pozzolan-stabilised soil admixed with crushed stone waste. Geomechanics and Geoengineering 18:4, pages 272-283.
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Sayyed Mostafa Haghighatjoo & Sayyed Yaghoub Zolfegharifar. (2022) Effects of fibre type and content on unconfined compressive strength of fibre-reinforced lime or cement-stabilised soils. Geomechanics and Geoengineering 17:6, pages 1962-1972.
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Mir Naser Navidi, Javad Seyedmohammadi & Seyed Alireza Seyed Jalali. (2022) Predicting soil water content using support vector machines improved by meta-heuristic algorithms and remotely sensed data. Geomechanics and Geoengineering 17:3, pages 712-726.
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Mehdi Eshaghzadeh, Meysam Bayat, Rassoul Ajalloeian & Sayyed Mahdi Hejazi. (2021) Mechanical behavior of silty sand reinforced with nanosilica-coated ceramic fibers. Journal of Adhesion Science and Technology 35:23, pages 2664-2683.
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Van-Ngoc Pham, Huu-Dao Do, Erwin Oh & Dominic E.L. Ong. (2021) Prediction of unconfined compressive strength of cement-stabilized sandy soil in Vietnam using artificial neural networks (ANNs) model. International Journal of Geotechnical Engineering 15:9, pages 1177-1187.
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Articles from other publishers (26)
Ali Reza Ghanizadeh, Mandana Salehi & Farhang Jalali. (2022) Investigating the Effect of Lime Stabilization of Subgrade on the Fatigue & Rutting Lives of Flexible Pavements Using the Nonlinear Mechanistic-Empirical Analysis. Geotechnical and Geological Engineering 41:2, pages 1287-1307.
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M. Ghasemi, M. Bayat & M. Ghasemi. (2023) Experimental Study on Mechanical Behavior of Sand Improved by Polyurethane Foam. Experimental Techniques.
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Himanshu Jangir & S. Rupali. 2023. Advanced Engineering Optimization Through Intelligent Techniques. Advanced Engineering Optimization Through Intelligent Techniques
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Suvendu Kumar Sasmal & Rabi Narayan Behera. 2023. Soil Dynamics, Earthquake and Computational Geotechnical Engineering. Soil Dynamics, Earthquake and Computational Geotechnical Engineering
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Woubishet Zewdu Taffese & Leonardo Espinosa-Leal. (2022) Prediction of chloride resistance level of concrete using machine learning for durability and service life assessment of building structures. Journal of Building Engineering 60, pages 105146.
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J.S. Owusu-Danquah, Abdallah Bseiso, Srinivas Allena & Stephen F. Duffy. (2022) Artificial neural network algorithms to predict the bond strength of reinforced concrete: Coupled effect of corrosion, concrete cover, and compressive strength. Construction and Building Materials 350, pages 128896.
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Woubishet Zewdu Taffese & Leonardo Espinosa-Leal. (2022) A machine learning method for predicting the chloride migration coefficient of concrete. Construction and Building Materials 348, pages 128566.
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Dung Quang Vu, Fazal E. Jalal, Mudassir Iqbal, Dam Duc Nguyen, Duong Kien Trong, Indra Prakash & Binh Thai Pham. (2022) Novel hybrid models of ANFIS and metaheuristic optimizations (SCE and ABC) for prediction of compressive strength of concrete using rebound hammer field test. Frontiers of Structural and Civil Engineering 16:8, pages 1003-1016.
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Hui Zhang. (2022) A Deep Learning Model for ERP Enterprise Financial Management System. Advances in Multimedia 2022, pages 1-11.
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Cesario Tavares, Xincheng Wang, Sajib Saha & Zachary Grasley. (2022) Machine learning-based mix design tools to minimize carbon footprint and cost of UHPC. Part 1: Efficient data collection and modeling. Cleaner Materials 4, pages 100082.
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Faiza Klouche, Esma Kara Mostefa, Abdelkrim Sekkel, Mustapha Maliki & Maroua Bouguenaya. (2022) Effect of waste concrete on the compressibility of clay from the Bouhanak region (Algeria). Euro-Mediterranean Journal for Environmental Integration 7:2, pages 191-200.
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Van-Ngoc Pham, Erwin Oh & Dominic E. L. Ong. (2022) Effects of binder types and other significant variables on the unconfined compressive strength of chemical-stabilized clayey soil using gene-expression programming. Neural Computing and Applications 34:11, pages 9103-9121.
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Hamed Farshbaf Aghajani, Sina Karimi & Milad Hatefi Diznab. (2022) An Experimental and Machine-Learning Investigation into Compaction of the Cemented Sand-Gravel Mixtures and Influencing Factors. Transportation Infrastructure Geotechnology.
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Kaffayatullah Khan, Babatunde Abiodun Salami, Mudassir Iqbal, Muhammad Nasir Amin, Fahim Ahmed & Fazal E. Jalal. (2022) Compressive Strength Estimation of Fly Ash/Slag Based Green Concrete by Deploying Artificial Intelligence Models. Materials 15:10, pages 3722.
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Woubishet Zewdu Taffese & Kassahun Admassu Abegaz. (2022) Prediction of Compaction and Strength Properties of Amended Soil Using Machine Learning. Buildings 12:5, pages 613.
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Fatih Yılmaz, Erol Sadoğlu & Hakan Alper Kamiloğlu. (2022) Evaluation of the effect of waste zeolite on the strength and micro-macrostructure of a high plasticity clayey soil stabilized with lime-waste zeolite mixtures subjected to freezing–thawing cycles. Arabian Journal of Geosciences 15:6.
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Niaz Muhammad Shahani, Xigui Zheng, Cancan Liu, Peng Li & Fawad Ul Hassan. (2022) Application of soft computing methods to estimate uniaxial compressive strength and elastic modulus of soft sedimentary rocks. Arabian Journal of Geosciences 15:5.
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Van-Ngoc Pham, Erwin Oh & Dominic E. L. Ong. (2021) Gene-Expression Programming-Based Model for Estimating the Compressive Strength of Cement-Fly Ash Stabilized Soil and Parametric Study. Infrastructures 6:12, pages 181.
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Alireza Sadeghabadi, Ali Noorzad & Amirali Zad. (2021) Numerical and experimental modeling of geomechanical behavior of partially saturated soils. International Journal of Geo-Engineering 12:1.
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Ahmed Hassan Saad, Haslinda Nahazanan, Zainuddin Bin Md Yusoff, Muskhazli Mustafa, Mohamed Hamdy Elseknidy & Angham Ali Mohammed. (2021) Evaluating Biosedimentation for Strength Improvement in Acidic Soil. Applied Sciences 11:22, pages 10817.
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Seyed Hadi SahlabadiMeysam Bayat, Mohsen MousivandMohsen Saadat. (2021) Freeze–Thaw Durability of Cement-Stabilized Soil Reinforced with Polypropylene/Basalt Fibers. Journal of Materials in Civil Engineering 33:9.
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Woubishet Zewdu Taffese & Kassahun Admassu Abegaz. (2021) Artificial Intelligence for Prediction of Physical and Mechanical Properties of Stabilized Soil for Affordable Housing. Applied Sciences 11:16, pages 7503.
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MohammadReza ShahriarKian, Shahab Kabiri & Meysam Bayat. (2021) Utilization of Zeolite to Improve the Behavior of Cement-Stabilized Soil. International Journal of Geosynthetics and Ground Engineering 7:2.
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Mohsen Salehi, Meysam Bayat, Mohsen Saadat & Masoud Nasri. (2021) Experimental Study on Mechanical Properties of Cement-Stabilized Soil Blended with Crushed Stone Waste. KSCE Journal of Civil Engineering 25:6, pages 1974-1984.
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Suvendu Kumar Sasmal & Rabi Narayan Behera. 2021. Soil Dynamics. Soil Dynamics
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Baki Bagriacik & Baris Mahmutluoglu. (2020) A new experimental approach to the improvement of sandy soils with construction demolition waste and cement. Arabian Journal of Geosciences 13:13.
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