Journal Papers

  1. Mahdi-Nia, S., Eskandari-Naddaf, H., Shadnia, R. (2019). Effect of cement strength class on the prediction of compressive strength of cement mortar using GEP method. Construction and Building Materials 198, 27-41.
  2. Eskandari-Naddaf, H., Kargari, A., Kazemi, R. (2018). Effect of Cement Strength Class on the Generalization of Abrams’ Law. Structural Concrete, Structural Concrete.
  3. Madadi, A., Eskandari-Naddaf, H., Shadnia, R., & Zhang, L. (2018). Digital Image Correlation to Characterize the Flexural Behavior of Lightweight Ferrocement Slab Panels. Construction and Building Materials, 189, 967-977.
  4. Azimi-pour, M. & Eskandari-Naddaf, H. (2018). ANN and GEP Prediction for Simultaneous Effect of Nano and Micro Silica on the Compressive and Flexural Strength of Cement Mortar. Construction and Building Materials, 189, 978-992.
  5. Madadi, A., Eskandari-Naddaf, H., Shadnia, R., & Zhang, L. (2018). Characterization of ferrocement slab panels containing lightweight expanded clay aggregate using digital image correlation technique. Construction and Building Materials, 180, 464-476.
  6. Ghanei, A., Eskandari-Naddaf, H. & Davoodi, A. (2018). Corrosion behavior and optimization of air-entrained reinforced concrete, incorporating micro-silica, Structural Concrete, 19 (5), 1472-1480.
  7. Korouzhdeh, T., Eskandari-Naddaf, H. (2018). Cost – safety optimization of steel-concrete composite beams using standardized formulation, Engineering Science and Technology, an International Journal,
  8. Madadi, A., Eskandari-Naddaf, H., & Nemati-Najad, M. (2018). Evaluation of Bond Strength of Reinforcement in Concrete Containing Fibers, Micro- and Nano-silica, Journal of Stress Analysis, 3 (1), 11-19.
  9. Zahiri, F., Eskandari-Naddaf, H. (2018). Optimization of Compressive Strength of Concrete Containing Micro-Silica, Nano-Silica and Polypropylene Fibers Using Extreme Vertices Mixture Design, Frontiers of Structural and Civil Engineering, Accepted.
  10. H Eskandari-Naddaf, A Ziaei-Nia (2018) Simultaneous effect of nano and micro silica on corrosion behaviour of reinforcement in concrete containing cement strength grade of C-525, Procedia Manufacturing , 22, 399-405
  11. H Eskandari-Naddaf, R Kazemi (2018) Experimental evaluation of the effect of mix design ratios on compressive strength of cement mortars containing cement strength class 42.5 and 52.5 MPa” , Procedia Manufacturing , 22, 392-398
  12. A Ziaei-Nia, GR Tadayonfar, H Eskandari-Naddaf (2018) ” Effect of Air Entraining Admixture on Concrete under Temperature Changes in Freeze and Thaw Cycles” Materials Today: Proceedings 5 (2), 6208-6216
  13. M Shariat, H Eskandari-Naddaf, M Tayyebinia, M Sadeghian (2018) “Sensitivity Analysis of Reinforced Concrete Deep Beam by STM and FEM (Part III)” Materials Today: Proceedings 5 (2), 5529-5535
  14. M Shariat, H Eskandari-Naddaf, M Tayyebinia, M Sadeghian (2018) “Finite Element Modeling of Shear Strength for Concrete Deep Beams (Part II)”Materials Today: Proceedings 5 (2), 5521-5528
  15. A Ziaei-Nia, GR Tadayonfar, H Eskandari-Naddaf (2018) “Dynamic Cost Optimization Method of Concrete Mix Design” , Materials Today: Proceedings 5 (2), 4669-4677
  16. H Eskandari-Naddaf, S Muralidhara, BKR Prasad, BVV Reddy, A Pakzad, (2018) PROPERTIES of SCC in GREEN and GREY STATE, Materials Today: Proceedings 5 (2), 3503-3512
  17. Ghaemi-Fard, H Eskandari‐Naddaf, GR Ebrahimi (2018) “Genetic prediction of cement mortar mechanical properties with different cement strength class after freezing and thawing cycles” Structural Concrete, 19 (5), 1341-1352.
  18. Hamid Eskandari-Naddaf, Saeed Morshedi-Torbati (2018)  “Durability of dry pressed concrete curbs against freeze and thaw for various cement strength grade, Sharif Journal Civil Engineering 34 (2), 69-76.
  19. Hamid Eskandari-Naddaf & Roshanak Khosrojerdi; Rana Koshki (2018)  “Optimization effective factors on compressive and flexural strength of mortars using Response Surface Method, Journal of Structural and Construction Engineering (JSCE). 10.22065/JSCE.2018.99589.1339
  20. Hamid Eskandari- Naddaf, M. Nemati-Nejad, (2018) ”Finite Element and Experimental Analysis of Bond Behavior Between Reinforcement and Concrete Containing Fibers, Silicafume and Nanosilica” Journal of Modeling in Engineering, Semnan,10.22075/JME.2017.5812.
  21. Mahdi-Nia, S., Eskandari-Naddaf, H. (2019). Effect of cement strength class on the mechanical properties and interfacial transition zone (ITZ) in cement mortar during freezing and thawing cycles. Construction and Building Materials, Under Review.
  22. Emamian, A., Eskandari-Naddaf, H. (2019). Effect of Porosity on Predicting Compressive and Flexural Strength of Cement Mortar Containing Micro and Nano-Silica by ANN and GEP. Construction and Building Materials, Revised.
  23. Eskandari-Naddaf, H., Tasdighi, M. & Madadi, A. (2019). Ferrocement Panels Incorporating Lightweight Expanded Clay and Perlite Aggregates: Experimental, Theoretical and Statistical Analysis. Engineering Structures, Under Review.
  24. Eskandari-Naddaf, H., & Kazemi, R. (2017). ANN prediction of cement mortar compressive strength, influence of cement strength class. Construction and Building Materials, 138, 1-11.
  25. Krouzhdeh, T., Eskandari-Naddaf, H., & Gharouni-Nik, M. (2017). An Improved Ant Colony Model for Cost Optimization of Composite Beams. Applied Artificial Intelligence, 31(1), 44-63.
  26. Madadi, A., Eskandari-Naddaf, H., & Gharouni-Nik, M. (2017). Lightweight Ferrocement Matrix Compressive Behavior: Experiments Versus Finite Element Analysis. Arabian Journal for Science and Engineering, 1-13.
  27. Lezgy-Nazargah, M., & Eskandari-Naddaf, H. (2017). Effective coupled thermo-electro-mechanical properties of piezoelectric structural fiber composites: A micromechanical approach. Journal of Intelligent Material Systems and Structures, 1045389X17711787.
  28. M Zarehparvar-Shoja, H Eskandari-Naddaf (2017) Optimizing Compressive Strength of Micro-and Nano-silica Concrete by Statistical Method, Civil Engineering Journal 3 (11), 1084-1
  29. S Mahdinia, H Eskandari-Naddaf, R Shadnia (2017) “Effect of Main Factors on Fracture Mode of Mortar, A Graphical Study” Civil Engineering Journal 3 (10), 897-903
  30. Nemati-Nejad, H. Eskandari-Naddaf, G Tadayonfar, Saghi,(2017) “ANN Prediction of bond strength between steel rebar and concrete containing micro-silica, nano-silica and fibers“, Concrete Research, 10 (2), 45-57.
  31. Eskandari, H., & Korouzhdeh, T. (2016). Cost optimization and sensitivity analysis of composite beams. Civil Engineering Journal, 2(2), 52-62.
  32. Eskandari, H., & Tayyebinia, M. (2016). Effect of 32.5 and 42.5 cement grades on ann prediction of fibrocement compressive strength. Procedia Engineering, 150, 2193-2201.
  33. Eskandari-Naddaf, H., Lezgy-Nazargah, M., & Bakhshi, H. (2016). Optimal Methods for Retrofitting Corrosion-damaged Reinforced Concrete Columns. Procedia Computer Science, 101, 262-271.
  34. Eskandari, H., Nic, A. M., & Ghanei, A. (2016). Effect of Air Entraining Admixture on Corrosion of Reinforced Concrete. Procedia Engineering, 150, 2178-2184.
  35. Eskandari, H., Nik, M. G., & Eidi, M. M. (2016). Prediction of Mortar Compressive Strengths for Different Cement Grades in the Vicinity of Sodium Chloride Using ANN. Procedia Engineering, 150, 2185-2192.
  36. Eskandari-Naddaf, H., & Azimi-Pour, M. (2016). Performance evaluation of dry-pressed concrete curbs with variable cement grades by using Taguchi method. Ain Shams Engineering Journal.
  37. Eskandari, H., Nik, M. G., & Pakzad, A. (2016). Foundation analyzing of centrifugal ID fans in cement plants. Alexandria Engineering Journal.
  38. H Eskandari, A Pakzad. (2015). Applying Simplex Lattice In Optimizing Self-Compaction Concrete Compressive Strength. Asian Journal Of Civil Engineering (BHRC) 16 (6), 775-787.
  39. Eskandari, H., & Madadi, A. (2015). Investigation of ferrocement channels using experimental and finite element analysis. Engineering Science and Technology, an International Journal, 18(4), 769-775.
  40. H Eskandari, A Pakzad, M Tayebi Nia. (2015). Optimum Mix Design of Self Consolidating Concrete Modeling. Concrete Research (Persian) 2 (6), 25-38.
  41. E Hamid, P Amir. (2015). Proposed compressive strength model for high flow ability concrete. Cement Magazine (Persian).
  42. H Esakandari, M Azimi Pour, R Kazemi. (2015). Designing, Proposing and Comparing the Methods Predicting the Compressive Strength of the Ferro cement Mortar. Concrete Research Letter 6 (1), 1-10.
  43. GR Ebrahimi, A Momeni, E Hamid. (2014). Interaction between Precipitation and Dynamic Recrystallization in HSLA-100 Microalloyed Steel. Iranian Journal of Materials Forming 2 (1), 34-50.
  44. Eskandari, H., Muralidhara, S., Prasad, B. R., & Reddy, B. V. (2012). Fracture properties of Self Compacting Concrete for Notched and Un-notched Beams. Global Journal of Research In Engineering, 12(1-E).
  45. Muralidhara, S., Prasad, B. R., Eskandari, H., & Karihaloo, B. L. (2010). Fracture process zone size and true fracture energy of concrete using acoustic emission. Construction and Building Materials, 24(4), 479-486.
  46. Eskandari, H., Muralidhara, S., Raghuprasad, B. K., & Reddy, B. V. (2010). Size effect in self consolidating concrete beams with and without notches. Sadhana, 35(3), 303-317.
  47. Prasad, B. R., Eskandari, H., & Reddy, B. V. (2009). Prediction of compressive strength of SCC and HPC with high volume fly ash using ANN. Construction and Building Materials, 23(1), 117-128.