{"id":559,"date":"2021-11-01T16:41:31","date_gmt":"2021-11-01T20:41:31","guid":{"rendered":"http:\/\/portfolio-pre.uqac.ca\/alisaeidi-en\/?page_id=559"},"modified":"2026-01-11T19:18:20","modified_gmt":"2026-01-12T00:18:20","slug":"journal-articles","status":"publish","type":"page","link":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/journal-articles\/","title":{"rendered":"Journal Articles"},"content":{"rendered":"

Journals<\/h2>\n
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    \n
  1. Karnati, V. R., Saeidi, A.<\/strong>, Rouleau, A., Quirion, M., & Meghnefi, F. (2026). Fluctuating Pressures on Spillway Surfaces as a Function of Joint Opening and Block Protrusion.\u00a0Geotechnical and Geological Engineering.<\/i><\/strong>\u00a044<\/i>(2), 76.<\/a><\/em><\/li>\n
  2. Aryanpour, G., & Saeidi, A.<\/strong> (2025). Relationship between particle plastic deformation and compactability: application to die-compaction of two pure iron powders.\u00a0Metallurgical Research & Technology<\/i><\/strong>,\u00a0122<\/i>(4), 411.<\/a><\/em><\/li>\n
  3. Bayati, Z., Saeidi, A.<\/strong>, & Payan, M. (2025). Approaches to the stability analysis of slopes subjected to seismic loading: a review.\u00a0Results in Engineering<\/i><\/strong>,\u00a026<\/i>,105362.<\/a><\/em><\/li>\n
  4. Bouharaoua, L. M., Chavali, R. V. P., L\u00e9vesque, Y., & Saeidi, A.<\/strong> (2025). Probabilistic and Deterministic Approach to Define the Vertical Stress in Inclined Mine Stopes.\u00a0International Journal of Geomechanics<\/em><\/strong>,\u00a025<\/em>(5), 04025059. <\/a><\/em><\/li>\n
  5. Brahami, Y., Fiset, M., Saeidi, A.,<\/strong> Ba, K., & Chavali, R. V. P. (2025). Effect of Cement Replacement by Bauxite Residue on Mechanical Properties of Concrete.\u00a0ACI Materials Journal<\/em><\/strong>,\u00a0122<\/em>(1), 19-30.<\/a><\/em><\/li>\n
  6. Brahami, Y., Fiset, M., Saeidi, A.,<\/strong> Ba, K., & Chavali, R. V. P. (2025). Uniaxial compressive stress-strain model for Bauxite residue concrete. J. Compos. Sci.<\/em><\/strong>,\u00a09(7)<\/em>, 318.<\/a><\/em><\/li>\n
  7. Farhadian, H., Tabrizi, D. S., Yousefi, S., Rezaei, A., & Saeidi, A.<\/strong> (2025). Evaluation of geological hazards along the Karaj water conveyance tunnel using multiple approaches and GIS.\u00a0Results in Engineering<\/i><\/strong>,\u00a026<\/i>, 104758.<\/em><\/a><\/li>\n
  8. Hossain, A. F., Saeidi, A.,<\/strong> Salsabili, M., Nastev, M., Suescun, J. R., & Bayati, Z. (2025). A Review of Parameters and Methods for Seismic Site Response.\u00a0Geosciences<\/em><\/strong>,\u00a015<\/em>(4), 128.<\/em><\/a><\/li>\n
  9. Hossain, A. S. M. F., Salsabili, M., Saeidi, A.<\/strong>, Nastev, M., & Suescun, J. R. (2025). Effects of complex surficial geology on seismic amplification in Quebec, Canada. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards<\/strong>, 1\u201321.<\/em><\/a><\/li>\n
  10. Hosseinpour, V., Saeidi, A.,<\/strong> Nastev, M., & Nollet, M. J. (2025). Development of a damage simulator for probabilistic seismic vulnerability assessment of electrical installations.\u00a0International Journal of Disaster Risk Reduction<\/em><\/strong>,\u00a0116<\/em>, 105133.<\/em><\/a><\/li>\n
  11. Karnati, V.R., Saeidi, A., <\/strong>Rouleau, A., & Quirion, M. (2025). Evaluation of the Effect of Joint Orientation on Rock Mass Erosion using a Pilot-Plant Spillway Model.\u00a0Rock Mechanics and Rock Engineering<\/strong>,<\/em> 58, 8351\u20138372.<\/em><\/a><\/li>\n
  12. Mahdavirad, M., Saeidi, A., <\/strong>Shahbazi, A., & No\u00ebl, J. F. (2025). Development of a novel equation for estimating the average volume of rock blocks in a rock mass with non-persistent joints.\u00a0Bulletin of Engineering Geology and the Environment<\/em><\/strong>,\u00a084<\/em>(1), 14.<\/em><\/a><\/li>\n
  13. Moghadam, E. M., Saeidi, A., <\/strong>Patarroyo, J., Rouleau, A., & Payan, M. (2025). Assessing the hydraulic parameters of an open channel through numerical and experimental approaches. Water. <\/em><\/strong>17(21)<\/em>, 3059.<\/em><\/a><\/li>\n
  14. Moghadam, E. M., Saeidi, A.,<\/strong> Rouleau, A., & Patarroyo, J. (2025). A numerical study on the effect of gate configuration on the hydraulic parameters of dam’s spillways.\u00a0Results in Engineering<\/em><\/strong>, 104446.<\/em><\/a><\/li>\n
  15. Pouramin, M., Pouramin, M., Payan, M., Salimi, M., Ashournia, M., Zanganeh Ranjbar, P., & Saeidi, A.<\/strong> (2025). Rapid stabilization of highly expansive clays: Synergistic approach with polyurethane and waste tire textile fiber for enhanced mechanical properties.\u00a0Journal of Materials in Civil Engineering<\/i><\/strong>,\u00a037<\/i>(11), 04025397.<\/em><\/a><\/li>\n
  16. Seifaddini, M., Aryanpour, G., Saeidi, A.<\/strong>, & Farzaneh, M. (2025). Study of the uniaxial behavior of isotropic ice in relation to time\u2010dependent and time\u2010independent strains.\u00a0Materialwissenschaft und Werkstofftechnik<\/i><\/strong>,\u00a056<\/i>(6), 906-915.<\/em><\/a><\/li>\n
  17. Shahbazi, A., Saeidi, A., <\/strong>Rouleau, A., & Chesnaux, R. (2025). Development a practical method for calculation of the block volume and block surface in a fractured rock mass. Scientific Reports<\/strong><\/em>\u00a015<\/em>, 44058.<\/em><\/a><\/li>\n
  18. Jalili Kashtiban, Y.,\u00a0Saeidi, A., <\/strong>Farinas, M. I., & Patarroyo, J. (2025). Enhancing the Unit Stream Power Dissipation Equation for Unlined Spillways: Incorporating Geometrical Parameters and Surface Irregularities.\u00a0Water<\/i><\/strong>,\u00a017<\/i>(12)<\/em>, 1751.<\/em><\/a><\/li>\n
  19. Abi, A., Walter, J., Chesnaux, R., & Saeidi, A.<\/strong> (2024). Groundwater level monitoring using exploited domestic wells: outlier removal and imputation of missing values.\u00a0Hydrogeology Journal<\/em><\/strong>,\u00a032<\/em>(3), 723-737.<\/em><\/a><\/li>\n
  20. Bilodeau, J. P., P\u00e9rez-Gonz\u00e1lez, E. L., & Saeidi, A.<\/strong> (2024). Modelling of the variation of granular base materials resilient modulus with material characteristics and humidity conditions.\u00a0Journal of Road Engineering<\/em><\/strong>,\u00a04<\/em>(1), 27-35.<\/em><\/a><\/li>\n
  21. Dastjerdy, B., Saeidi, A.<\/strong>, & Heidarzadeh, S. (2024). Determination of uncertainties of geomechanical parameters of metamorphic rocks using petrographic analyses.\u00a0Journal of Rock Mechanics and Geotechnical Engineering<\/em><\/strong>,\u00a016<\/em>(2), 345-364.<\/em><\/a><\/li>\n
  22. Heidarzadeh, S., & Saeidi, A.<\/strong> (2024). A methodology for damage evaluation of underground tunnels subjected to static loading using numerical modeling.\u00a0Journal of Rock Mechanics and Geotechnical Engineering<\/em><\/strong>,\u00a016<\/em>(6), 1993-2005.<\/em><\/strong><\/a><\/li>\n
  23. Hosseinpour, V., Saeidi, A., <\/strong>Salsabili, M., Nastev, M., & Nollet, M. J. (2024). Development of a probabilistic seismic microzonation software considering geological and geotechnical uncertainties.\u00a0Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards<\/em><\/strong>,\u00a018<\/em>(3), 727-747.<\/em><\/strong><\/a><\/li>\n
  24. Koulibaly, A. S., Saeidi, A.,<\/strong> Rouleau, A., & Quirion, M. (2024). Determining the Relevance of Commonly Used Hydraulic Parameters for Representing the Water Erosive Force in Rock Mass Erosion within Dam Spillways.\u00a0Water<\/em><\/strong>,\u00a016<\/em>(9), 1261.<\/em><\/strong><\/a><\/li>\n
  25. Shahbazi, A., Saeidi, A., <\/strong>Chesnaux, R., & Rouleau, A. (2024). An index based on fracture length and aperture to predict groundwater inflow rates in tunnels excavated in fractured-rock.\u00a0Transportation Geotechnics<\/em><\/strong>,\u00a045<\/em>, 101217.<\/em><\/strong><\/a><\/li>\n
  26. Urmi, Z. A., Yerro, A., Saeidi, A.<\/strong>, & Chavali, R. V. P. (2024). Prediction of retrogressive landslide in sensitive clays by incorporating a novel strain softening law into the Material Point Method.\u00a0Engineering Geology<\/em><\/strong>,\u00a0340<\/em>, 107669.<\/em><\/a><\/li>\n
  27. Wisse, M. H., Saeidi, A.<\/strong>, Quirion, M., & Nilsson, C. O. (2024). Effects of joint opening and block protrusion on the hydraulic parameters affecting rock block erosion in unlined spillways using a reduced-scale model.\u00a0Acta Geotechnica<\/em><\/strong>,\u00a019<\/em>(4), 1965-1979.<\/em><\/a><\/li>\n
  28. Dastjerdy, B., Saeidi, A.<\/strong>, & Heidarzadeh, S. (2023). Review of applicable outlier detection methods to treat geomechanical data.\u00a0Geotechnics<\/em><\/strong>,\u00a03<\/em>(2), 375-396. <\/em><\/a><\/li>\n
  29. Eslami, E., Tremblay, K., Seifaddini, M., Saeidi, A.<\/strong>, & Mercier-Langevin, P. (2023). Evaluation of the impact of fragile-ductile-fault-related hydrothermal alteration on geomechanical parameters in highly anisotropic mine environments\u2014an improved linking of geology and rock mechanics.\u00a0Arabian Journal of Geosciences<\/em><\/strong>,\u00a016<\/em>(9), 516.<\/em><\/a><\/li>\n
  30. Jacob, S., Chavali, R. V. P., Saeidi, A.<\/strong>, & Sadrekarimi, A. (2023). Remoulding energy as a criterion in assessing retrogressive landslides in sensitive clays: a review and its applicability to Eastern Canada.\u00a0Natural Hazards<\/em><\/strong>,\u00a0118<\/em>(3), 1833-1853.<\/em><\/a><\/li>\n
  31. Jalili Kashtiban, Y., Saeidi, A., <\/strong>Farinas, M. I., & Patarroyo, J. (2023). Evaluation of the Effect of Surface Irregularities on the Hydraulic Parameters within Unlined Dam Spillways.\u00a0Water<\/em><\/strong>,\u00a015<\/em>(16), 3004.<\/em> <\/a><\/li>\n
  32. Koulibaly, A. S., Saeidi, A., <\/strong>Rouleau, A., & Quirion, M. (2023). A reduced-scale physical model of a spillway to evaluate the hydraulic erodibility of a fractured rock mass.\u00a0Rock Mechanics and Rock Engineering<\/em><\/strong>,\u00a056<\/em>(2), 933-951.<\/em><\/a><\/li>\n
  33. Koulibaly, A. S., Shahbazi, A., Saeidi, A., <\/strong>Rouleau, A., Quirion, M., & Chesnaux, R.<\/strong> (2023). Advancements in rock block volume calculation by analytical method for geological engineering applications.\u00a0Environmental Earth Sciences<\/em><\/strong>,\u00a082<\/em>(13), 344.<\/em><\/a><\/li>\n
  34. McLean, J., Saeidi, A., <\/strong>Chavali, R. V. P., Seifaddini, M., Clement, A., Barbarisque, T., & Bilodeau, J. P. (2023). Adfreeze strength of wooden piles in warm permafrost soil.\u00a0Journal of Cold Regions Engineering<\/em><\/strong>,\u00a037<\/em>(2), 04023002.<\/em><\/a><\/li>\n
  35. Richer, B., Saeidi, A., <\/strong>Boivin, M., Rouleau, A., & L\u00e9vesque, Y. (2023). Development of a methodology for predicting landslide hazards at a regional scale.\u00a0Geoenvironmental Disasters<\/em><\/strong>,\u00a010<\/em>(1), 6.<\/em><\/a><\/li>\n
  36. Salsabili, M., Saeidi, A., <\/strong>Rouleau, A., & Nastev, M. (2023). Probabilistic approach for seismic microzonation integrating 3D geological and geotechnical uncertainty.\u00a0Earthquake Spectra<\/em><\/strong>,\u00a039<\/em>(1), 310-334.<\/em><\/a><\/li>\n
  37. Shahbazi, A., Saeidi, A., <\/strong>Chesnaux, R., & Rouleau, A. (2023). Effects of fracture-system geometrical parameters on the inflow rate into a tunnel in rock: a numerical modelling experiment.\u00a0Quarterly Journal of Engineering Geology and Hydrogeology<\/em><\/strong>,\u00a056<\/em>(2), qjegh2021-128.<\/em><\/a><\/li>\n
  38. Urmi, Z. A., Saeidi, A., <\/strong>Chavali, R. V. P., & Yerro, A. (2023). Failure mechanism, existing constitutive models and numerical modeling of landslides in sensitive clay: a review.\u00a0Geoenvironmental Disasters<\/em><\/strong>,\u00a010<\/em>(1), 14.<\/em><\/a><\/li>\n
  39. Urmi, Z. A., Saeidi, A.<\/strong>, Yerro, A., & Chavali, R. V. P. (2023). Prediction of post-peak stress-strain behavior for sensitive clays.\u00a0Engineering Geology<\/em><\/strong>,\u00a0323<\/em>, 107221.<\/em> <\/a><\/li>\n
  40. Wisse, M. H., Saeidi, A.,<\/strong> & Quirion, M. (2023). Comparison of existing joint orientation parameters and their effect on rock erodibility in dam spillways.\u00a0Quarterly Journal of Engineering Geology and Hydrogeology<\/em><\/strong>,\u00a056<\/em>(4), qjegh2022-042.<\/em><\/a><\/li>\n
  41. Askaripour, M., Saeidi, A.<\/strong>, Mercier-Langevin, P., & Rouleau, A.<\/strong> (2022). A review of relationship between texture characteristic and mechanical properties of rock.\u00a0Geotechnics<\/em><\/strong>,\u00a02<\/em>(1), 262-296.<\/em><\/a><\/li>\n
  42. Askaripour, M., Saeidi, A., <\/strong>Rouleau, A., & Mercier-Langevin, P. (2022). Rockburst in underground excavations: A review of mechanism, classification, and prediction methods.\u00a0Underground Space<\/em><\/strong>,\u00a07<\/em>(4), 577-607.<\/em><\/a><\/li>\n
  43. Attoumane, A., Walter, J., Saeidi, A.<\/strong>, & Chesnaux, R. (2022). A cluster-based multiparametric similarity test for the compartmentalization of crystalline rocks into structural domains.\u00a0Quarterly Journal of Engineering Geology and Hydrogeology<\/em><\/strong>,\u00a055<\/em>(3), qjegh2021-136.<\/em><\/a><\/li>\n
  44. Brahami, Y., Saeidi, A.,<\/strong> Fiset, M., & Ba, K. (2022). The effects of the type and quantity of recycled materials on physical and mechanical properties of concrete and mortar: a review.\u00a0Sustainability<\/em><\/strong>,\u00a014<\/em>(22), 14752.<\/em><\/a><\/li>\n
  45. Saeidi, A.<\/strong>, Cloutier, C., Kamalibandpey, A., & Shahbazi, A. (2022). Evaluation of the Effect of Geomechanical Parameters and In Situ Stress on Tunnel Response Using Equivalent Mohr-Coulomb and Generalized Hoek-Brown Criteria.\u00a0Geosciences<\/em><\/strong>,\u00a012<\/em>(7), 262.<\/em><\/a><\/li>\n
  46. Saeidi, A.<\/strong>, Deck, O., Seifaddini, M., Heib, M. A., & Verdel, T. (2022). An improved methodology for applying the influence function for subsidence hazard prediction.\u00a0Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards<\/em><\/strong>,\u00a016<\/em>(2), 347-359.<\/em><\/a><\/li>\n
  47. Salsabili, M., Saeidi, A.,<\/strong> Rouleau, A., & Nastev, M. (2022). Development of empirical CPTu-Vs correlations for post-glacial sediments in Southern Quebec, Canada, in consideration of soil type and geological setting.\u00a0Soil Dynamics and Earthquake Engineering<\/em><\/strong>,\u00a0154<\/em>, 107131.<\/em><\/a><\/li>\n
  48. Sanou, A. G., Saeidi, A., <\/strong>Heidarzadeh, S., Chavali, R. V. P., Samti, H. E., & Rouleau, A. (2022). Geotechnical Parameters of Landslide-Prone Laflamme Sea Deposits, Canada: Uncertainties and Correlations.\u00a0Geosciences<\/em><\/strong>,\u00a012<\/em>(8), 297.<\/em><\/a><\/li>\n
  49. Boumaiza, L., Saeidi, A.<\/strong>, & Quirion, M. (2021). A method to determine the relative importance of geological parameters that control the hydraulic erodibility of rock.\u00a0Quarterly Journal of Engineering Geology and Hydrogeology<\/em><\/strong>,\u00a054<\/em>(4), qjegh2020-154.<\/em><\/a><\/li>\n
  50. Heidarzadeh, S., Saeidi, A.<\/strong>, & Rouleau, A. (2021). The damage-failure criteria for numerical stability analysis of underground excavations: A review.\u00a0Tunnelling and Underground Space Technology<\/em><\/strong>,\u00a0107<\/em>, 103633.<\/em><\/a><\/li>\n
  51. Heidarzadeh, S., Saeidi, A.,<\/strong> Lavoie, C., & Rouleau, A. (2021). Geomechanical characterization of a heterogenous rock mass using geological and laboratory test results: a case study of the Niobec Mine, Quebec (Canada).\u00a0SN Applied Sciences<\/em><\/strong>,\u00a03<\/em>, 1-20.<\/em><\/a><\/li>\n
  52. Hosseinpour, V., Saeidi, A.<\/strong>, Nollet, M. J., & Nastev, M. (2021). Seismic loss estimation software: A comprehensive review of risk assessment steps, software development and limitations.\u00a0Engineering structures<\/em><\/strong>,\u00a0232<\/em>, 111866.<\/em><\/a><\/li>\n
  53. Jalili Kashtiban, Y., Saeidi, A., <\/strong>Farinas, M. I., & Quirion, M. (2021). A review on existing methods to assess hydraulic erodibility downstream of dam spillways.\u00a0Water<\/em><\/strong>,\u00a013<\/em>(22), 3205.<\/em><\/a><\/li>\n
  54. Koulibaly, A. S., Saeidi, A., <\/strong>Rouleau, A., & Quirion, M. (2021). Identification of hydraulic parameters influencing the hydraulic erodibility of spillway flow channels.\u00a0Water<\/em><\/strong>,\u00a013<\/em>(21), 2950.<\/em><\/a><\/li>\n
  55. Saeidi, A., <\/strong>Heidarzadeh, S., Lalancette, S., & Rouleau, A. (2021). The effects of in situ stress uncertainties on the assessment of open stope stability: case study at the Niobec Mine, Quebec (Canada).\u00a0Geomechanics for Energy and the Environment<\/em><\/strong>,\u00a025<\/em>, 100194.<\/em><\/a><\/li>\n
  56. Salsabili, M., Saeidi, A., <\/strong>Rouleau, A., & Nastev, M. (2021). 3D probabilistic modelling and uncertainty analysis of glacial and post-glacial deposits of the city of Saguenay, Canada.\u00a0Geosciences<\/em><\/strong>,\u00a011<\/em>(5), 204.<\/em> <\/a><\/li>\n
  57. Salsabili, M., Saeidi, A.,<\/strong> Rouleau, A., & Nastev, M. (2021). Seismic microzonation of a region with complex surficial geology based on different site classification approaches.\u00a0Geoenvironmental<\/em><\/strong> Disasters<\/strong><\/em>,\u00a08<\/em>, 1-13.<\/em><\/a><\/li>\n
  58. Shahbazi, A., Chesnaux, R., & Saeidi, A.<\/strong> (2021). A new combined analytical-numerical method for evaluating the inflow rate into a tunnel excavated in a fractured rock mass.\u00a0Engineering<\/em><\/strong> Geology<\/strong><\/em>,\u00a0283<\/em>, 106003.<\/em><\/a><\/li>\n
  59. Shahbazi, A., Saeidi, A., <\/strong>Chesnaux, R., & Rouleau, A. (2021). The specific length of an underground tunnel and the effects of rock block characteristics on the inflow rate.\u00a0Geosciences<\/em><\/strong>,\u00a011<\/em>(12), 517.<\/em><\/a><\/li>\n
  60. Heidarzadeh, S., Saeidi, A.<\/strong>, & Rouleau, A. (2020). Use of probabilistic numerical modeling to evaluate the effect of geomechanical parameter variability on the probability of open-stope failure: a case Study of the Niobec Mine, Quebec (Canada).\u00a0Rock Mechanics and Rock Engineering<\/em><\/strong>,\u00a053<\/em>(3), 1411-1431.<\/em><\/a><\/li>\n
  61. Richer, B., Saeidi, A., <\/strong>Boivin, M., & Rouleau, A. (2020). Overview of retrogressive landslide risk analysis in sensitive clay slope.\u00a0Geosciences<\/em><\/strong>,\u00a010<\/em>(8), 279.<\/em><\/a><\/li>\n
  62. Saeidi, A.<\/strong>, Eslami, E., Quirion, M., & Seifaddini, M. (2020). Assessment of rock mass erosion in unlined spillways using developed vulnerability and fragility functions.\u00a0Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards<\/em><\/strong>,\u00a014<\/em>(4), 280-292.<\/em><\/a><\/li>\n
  63. Seifaddini, M., Saeidi, A.,<\/strong> & Doucet, M. (2020). Geomechanical testing report for the company Iamgold. 40. Universit\u00e9 du Qu\u00e9bec \u00e0 Chicoutimi (Rapport).<\/li>\n
  64. Seifaddini, M., Saeidi, A.,<\/strong> & Doucet, M. (2020). Geomechanical testing report for the company Iamgold. 35. Universit\u00e9 du Qu\u00e9bec \u00e0 Chicoutimi (Report).<\/li>\n
  65. Seifaddini, M., Saeidi, A.<\/strong>, & Farzaneh, M. (2020). Ice stress\u2010strain curve prediction in uniaxial compression loading in the objective of atmospheric icing risk evaluation.\u00a0Materialwissenschaft und Werkstofftechnik<\/em><\/strong> (Materials Science & Engineering technology)<\/strong>,\u00a051<\/em>(5), 676-684.<\/em><\/a><\/li>\n
  66. Shahbazi, A., Saeidi, A.<\/strong>, & Chesnaux, R. (2020). A review of existing methods used to evaluate the hydraulic conductivity of a fractured rock mass.\u00a0Engineering Geology<\/em><\/strong>,\u00a0265<\/em>, 105438.<\/em><\/a><\/li>\n
  67. Boumaiza, L., Saeidi, A.<\/strong>, & Quirion, M. (2019). A method to determine relevant geomechanical parameters for evaluating the hydraulic erodibility of rock.\u00a0Journal of Rock Mechanics and Geotechnical Engineering<\/em><\/strong>,\u00a011<\/em>(5), 1004-1018.<\/em><\/a><\/li>\n
  68. Boumaiza, L., Saeidi, A.<\/strong>, & Quirion, M. (2019). Determining relative block structure rating for rock erodibility evaluation in the case of non-orthogonal joint sets.\u00a0Journal of Rock Mechanics and Geotechnical Engineering<\/em><\/strong>,\u00a011<\/em>(1), 72-87.<\/em><\/a><\/li>\n
  69. Heidarzadeh, S., Saeidi, A.<\/strong>, & Rouleau, A. (2019). Evaluation of the effect of geometrical parameters on stope probability of failure in the open stoping method using numerical modeling.\u00a0International Journal of Mining Science and Technology<\/em><\/strong>,\u00a029<\/em>(3), 399-408.<\/em><\/a><\/li>\n
  70. <\/li>\n
  71. Farid, H., Saeidi, A.<\/strong>, Farzaneh, M., & Erchiqui, F. (2018). An atmospheric ice empirical failure criterion.\u00a0Cold Regions Science and Technology<\/em><\/strong>,\u00a0146<\/em>, 81-86.<\/em><\/a><\/li>\n
  72. Foulon, T., Saeidi, A., <\/strong>Chesnaux, R., Nastev, M., & Rouleau, A. (2018). Spatial distribution of soil shear-wave velocity and the fundamental period of vibration\u2013a case study of the Saguenay region, Canada.\u00a0Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards<\/em><\/strong>,\u00a012<\/em>(1), 74-86.<\/em><\/a><\/li>\n
  73. Heidarzadeh, S., Saeidi, A.<\/strong>, & Rouleau, A. (2018). Assessing the effect of open stope geometry on rock mass brittle damage using a response surface methodology.\u00a0International Journal of Rock Mechanics and Mining Sciences<\/em><\/strong>,\u00a0106<\/em>, 60-73.<\/em><\/a><\/li>\n
  74. Farid, H., Saeidi, A.<\/strong>, & Farzaneh, M. (2017). Prediction of failure in atmospheric ice under triaxial compressive stress.\u00a0Cold Regions Science and Technology<\/em><\/strong>,\u00a0138<\/em>, 46-56.<\/em><\/a><\/li>\n
  75. Levesque, Y., Saeidi, A.<\/strong>, & Rouleau, A.<\/strong> (2017). An earth pressure coefficient based on the geomechanical and geometric parameters of backfill in a mine stope.\u00a0International Journal of Geo-Engineering<\/em><\/strong>,\u00a08<\/em>, 1-15.<\/em> <\/a><\/li>\n
  76. Farid, H., Farzaneh, M., Saeidi, A.<\/strong>, & Erchiqui, F. (2016). A contribution to the study of the compressive behavior of atmospheric ice.\u00a0Cold Regions Science and Technology<\/em><\/strong>,\u00a0121<\/em>, 60-65.<\/em><\/a><\/li>\n
  77. Saeidi, A.<\/strong>, Maazallahi, V., & Rouleau, A.<\/strong> (2016). Assessment of slide surface and pre-slide topography using site investigation data in back analysis.\u00a0International Journal of Rock Mechanics and Mining Sciences<\/em><\/strong>,\u00a088<\/em>, 29-33.<\/em><\/a><\/li>\n
  78. Saeidi, A.<\/strong>, Deck, O., & Verdel, T. (2015). An extension of analytical methods for building damage evaluation in subsidence regions to anisotropic beams.\u00a0European Journal of Environmental and Civil Engineering<\/em><\/strong>,\u00a019<\/em>(6), 756-772.<\/em><\/a><\/li>\n
  79. Saeidi, A.<\/strong>, Deck, O., & Verdel, T. (2015). Development of a damage simulator for the probabilistic assessment of building vulnerability in subsidence areas.\u00a0International Journal of Rock Mechanics and Mining Sciences<\/em><\/strong>,\u00a073<\/em>, 42-53.<\/em><\/a><\/li>\n
  80. Saeidi, A.,<\/strong> Deck, O., & Verdel, T. (2013). Comparison of building damage assessment methods for risk analysis in mining subsidence regions.\u00a0Geotechnical and Geological Engineering<\/i><\/strong>,\u00a031<\/i>(4), 1073-1088.<\/em><\/a><\/li>\n
  81. Saeidi, A.,<\/strong> Deck, O., Al Heib, M., Verdel, T., & Rouleau, A. (2013). Adjusting the influence function method for subsidence prediction.\u00a0Key Engineering Materials<\/i><\/strong>,\u00a0553<\/i>, 59-66.<\/em><\/a><\/li>\n
  82. Saeidi, A.,<\/strong> Deck, O., & Verdel, T. (2012). Development of building vulnerability functions in subsidence regions from analytical methods.\u00a0G\u00e9otechnique<\/i><\/strong>,\u00a062<\/i>(2), 107-120.<\/em><\/a><\/li>\n
  83. Saeidi, A.,<\/strong> Deck, O., & Verdel, T. (2011). D\u00e9veloppement d\u2019un simulateur de dommages pour l\u2019\u00e9valuation de la vuln\u00e9rabilit\u00e9 en zone d\u2019al\u00e9a minier.\u00a0Mines & carri\u00e8res (hors-s\u00e9rie)<\/i><\/strong>, (185), 34-38.<\/em><\/a><\/li>\n
  84. Saeidi, A.,<\/strong> Deck, O., & Verdel, T. (2009). Development of building vulnerability functions in subsidence regions from empirical methods.\u00a0Engineering Structures<\/i><\/strong>,\u00a031<\/i>(10), 2275-2286.<\/em><\/a><\/strong><\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"

    Journals Karnati, V. R., Saeidi, A., Rouleau, A., Quirion, M., & Meghnefi, F. (2026). Fluctuating Pressures on Spillway Surfaces as a Function of Joint Opening and Block Protrusion.\u00a0Geotechnical and Geological Engineering.\u00a044(2), 76. Aryanpour, G., & Saeidi, A. (2025). Relationship between particle plastic deformation and compactability: application to die-compaction of two pure iron powders.\u00a0Metallurgical Research & … Continue reading Journal Articles<\/span> →<\/span><\/a><\/p>\n","protected":false},"author":254,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"tags":[],"_links":{"self":[{"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/pages\/559"}],"collection":[{"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/users\/254"}],"replies":[{"embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/comments?post=559"}],"version-history":[{"count":6,"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/pages\/559\/revisions"}],"predecessor-version":[{"id":645,"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/pages\/559\/revisions\/645"}],"wp:attachment":[{"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/media?parent=559"}],"wp:term":[{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/portfolio.uqac.ca\/alisaeidi-en\/wp-json\/wp\/v2\/tags?post=559"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}