Journal Papers

  1. Emamian, S. A., & Eskandari-Naddaf, H. (2020). Genetic programming based formulation for compressive and flexural strength of cement mortar containing nano and micro silica after freeze and thaw cycles. Construction and Building Materials241, 118027. (PDF*)
  2. Divanedari, H., & Eskandari-Naddaf, H. (2020). Insights into surface crack propagation of cement mortar with different cement fineness subjected to freezing/thawing. Construction and Building Materials233, 117207. (PDF)
  3. Azimi-Pour, M., Eskandari-Naddaf, H., & Pakzad, A. (2020). Linear and non-linear SVM prediction for fresh properties and compressive strength of high volume fly ash self-compacting concrete. Construction and Building Materials230, 117021. (PDF)
  4. SA Emamian, H Eskandari-Naddaf, (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 218, 8-27 (PDF)
  5. A Kooshkaki, H Eskandari-Naddaf (2019) Effect of porosity on predicting compressive and flexural strength of cement mortar containing micro and nano-silica by multi-objective ANN modeling, Construction and Building Materials 212, 176-191 (PDF)
  6. A Madadi, M Tasdighi, H Eskandari-Naddaf (2019) Structural response of ferrocement panels incorporating lightweight expanded clay and perlite aggregates: Experimental, theoretical and statistical analysis, Engineering Structures 188, 382-393 (PDF)
  7. 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. (PDF)
  8. Eskandari-Naddaf, H., Kargari, A., Kazemi, R. (2018). Effect of Cement Strength Class on the Generalization of Abrams’ Law. Structural Concrete, Structural Concrete. https://doi.org/10.1002/suco.201700275 (PDF)
  9. 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. (PDF)
  10. 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. (PDF)
  11. 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. (PDF)
  12. 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. (PDF)
  13. Korouzhdeh, T., Eskandari-Naddaf, H. (2019). Cost – safety optimization of steel-concrete composite beams using standardized formulation, Engineering Science and Technology, an International Journal, https://doi.org/10.1016/j.jestch.2018.09.005. (PDF)
  14. Madadi, A., Eskandari-Naddaf, H., & Nemati-Najad, M. (2019). Evaluation of Bond Strength of Reinforcement in Concrete Containing Fibers, Micro- and Nano-silica, Journal of Stress Analysis, 3 (1), 11-19. (PDF)
  15. Zahiri, F., Eskandari-Naddaf, H. (2019). Optimizing the compressive strength of concrete containing micro-silica, nano-silica, and polypropylene fibers using extreme vertices mixture design,Frontiers of Structural and Civil Engineering, 1-10 (PDF)
  16. 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 (PDF)
  17. 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 (PDF)
  18. 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 (PDF)
  19. 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 (PDF)
  20. 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 (PDF)
  21. A Ziaei-Nia, GR Tadayonfar, H Eskandari-Naddaf (2018) “Dynamic Cost Optimization Method of Concrete Mix Design” , Materials Today: Proceedings 5 (2), 4669-4677 (PDF)
  22. 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 (PDF)
  23. 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. (PDF)
  24. 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. (PDF)
  25. 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 (PDF)
  26. 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. (PDF)
  27. 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. (PDF)
  28. 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. (PDF)
  29. 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. (PDF)
  30. 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. (PDF)
  31. 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 (PDF)
  32. 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 (PDF)
  33. 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. (PDF)
  34. Eskandari, H., & Korouzhdeh, T. (2016). Cost optimization and sensitivity analysis of composite beams. Civil Engineering Journal, 2(2), 52-62. (PDF)
  35. 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. (PDF)
  36. Eskandari-Naddaf, H., Lezgy-Nazargah, M., & Bakhshi, H. (2016). Optimal Methods for Retrofitting Corrosion-damaged Reinforced Concrete Columns. Procedia Computer Science, 101, 262-271. (PDF)
  37. Eskandari, H., Nic, A. M., & Ghanei, A. (2016). Effect of Air Entraining Admixture on Corrosion of Reinforced Concrete. Procedia Engineering, 150, 2178-2184. (PDF)  
  38. 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. (PDF)
  39. 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. (PDF)
  40. Eskandari, H., Nik, M. G., & Pakzad, A. (2016). Foundation analyzing of centrifugal ID fans in cement plants. Alexandria Engineering Journal. (PDF)
  41. 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. (PDF)
  42. 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. (PDF)
  43. H Eskandari, A Pakzad, M Tayebi Nia. (2015). Optimum Mix Design of Self Consolidating Concrete Modeling. Concrete Research (Persian) 2 (6), 25-38. (PDF)
  44. 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. (PDF)
  45. 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. (PDF)
  46. 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). (PDF)
  47. 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. (PDF)
  48. 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. (PDF)
  49. 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. (PDF)
 

Note: PDF files have limited access due to the copyright policies of publishers. Passwords will be available on request. Please contact Dr. Eskandari through Hamidiisc@yahoo.com