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Profile
| Academic position | Post Doc |
|---|---|
| Research fields | Construction Material Sciences, Chemistry, Building Physics,Computer-Aided Design of Materials and Simulation of Materials Behaviour from Atomic to Microscopic Scale |
| Keywords | Warm mix asphalt (WMA), Diffusion, Micromechanical model, Multiphysics simulation, Recycled asphalt pavement (RAP) |
Current contact address
| Country | Iran |
|---|---|
| City | Tehran |
| Institution | Tarbiat Modares University |
Host during sponsorship
| Dr.-Ing. Konrad Mollenhauer | Fachbereich 14 Bauingenieur- und Umweltingenieurwesen, Universität Kassel, Kassel |
|---|---|
| Start of initial sponsorship | 01/06/2023 |
Programme(s)
| 2022 | Georg Forster Research Fellowship Programme for Postdocs |
|---|
Publications (partial selection)
| 2025 | Seyed Mohsen Motevalizadeh Konrad Mollenhauer Jens Wetekam: Characterisation of bitumen grade and modification using a multilevel multivariate discriminant analysis approach and FTIR spectroscopy. In: Road Materials and Pavement Design, 26, 2025, 214-234 |
|---|---|
| 2025 | Seyed Mohsen Motevalizadeh, Konrad Mollenhauer: Identification of chemical markers for blending phenomena in RAP mastics using FTIR spectroscopy and multivariate discriminant analysis. In: Construction and Building Materials, 485, 2025, 141822 |
| 2024 | Seyed Mohsen Motevalizadeh, Konrad Mollenhauer: Exploration of chemical changes in bituminous mastics induced by aging: insights from FTIR spectroscopy, DSR measurements, and machine learning. In: International Journal of Pavement Engineering, 25, 2024, 2418927 |
| 2024 | Seyed Mohsen Motevalizadeh Konrad Mollenhauer Jens Wetekam: FTIR spectroscopy and multivariate discriminant analysis for classifying bituminous mastics: Exploring aging states and mastic composition. In: Construction and Building Materials, 438, 2024, 137188 |
| 2024 | Seyed Mohsen Motevalizadeh, Konrad Mollenhauer: Use of multivariate clustering analysis to investigate the physicochemical interactions in bitumen mastics using micromechanical modeling and FTIR spectroscopy. In: Construction and Building Materials, 448, 2024, 138230 |