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M.Sc. Muhammad Ali
Doctoral Candidate
Department: Scale-Bridging Thermodynamic and Kinetic Simulation
Group: Phase-field Simulation of Microstructures
ICAMS
Ruhr-Universität Bochum
ICFW 731
Universitätsstr. 150
44801 Bochum
Tel.: +49 234 32 22520
E-Mail: muhammad.ali-u7x@rub.de
Competences
Phase field modelling, software development, Ni-based superalloys, plasticity
- Y. Jiang, M. Ali, I. Roslyakova, D. Bürger, et al.
3D phase-field simulations to machine-learn 3D information from 2D micrographs. Modelling and Simulation in Materials Science and Engineering, 31, 035005, (2023) - M. Ali, O. Shchyglo, M. Stricker, I. Steinbach, S. Ahmed
Coherency loss marking the onset of degradation in high temperature creep of superalloys: phase-field simulation coupled to strain gradient crystal plasticity. Computational Materials Science, 220, 112069, (2023) - U. Nwachukwu, A. Obaied, O. Horst, M. Ali, et al.
Microstructure property classification of Nickel-based Superalloys using Deep Learning. Modelling and Simulation in Materials Science and Engineering, 30, 025009, (2022) - M. Ali, I. Lopez-Galilea, W. Amin, S. Gao, et al.
Effect of γ′ precipitate size on hardness and creep properties of Ni-base single crystal superalloys: experiment and simulation. Materialia, 12, 100692, (2020) - M. Ali, W. Amin, O. Shchyglo, I. Steinbach
45-degree rafting in Ni-based superalloys: a combined phase-field and strain gradient crystal plasticity study. International Journal of Plasticity, 128, 102659, (2020) - S. Gao, M. Ali, A. Hartmaier
Influence of rafted microstructures on creep in Ni-base single crystal superalloys: a 3D discrete dislocation dynamics study. Modelling and Simulation in Materials Science and Engineering, 28, 025001, (2020) - M. Ali, J. V. Görler, I. Steinbach
Role of coherency loss on rafting behavior of Ni-based superalloys. Computational Materials Science, 171, 109279, (2020) - W. Amin, M. Ali, N. Vajragupta, A. Hartmaier
Studying grain boundary strengthening by dislocation-based strain gradient crystal plasticity coupled with a multi-phase-field model. Materials, 12, 2977, (2019) - C. Wang, M. Ali, S. Gao, J. Görler, I. Steinbach
Combined phase-field crystal plasticity simulation of P- and N-type rafting in Co-based superalloys. Acta Materialia, 175, 21-34, (2019) - B. Ruttert, I. Lopez-Galilea, A. Kostka, C. Somsen, et al.
Rejuvenation of single-crystal Ni-base superalloy turbine blades: Unlimited service life?. Metallurgical and Materials Transactions A, 49, 4262–4273, (2018) - M. Ali
High temperature creep in Ni-based superalloys. Master Thesis, Ruhr-Universität Bochum, (2018)
- 03.11.2022
Dhanunjaya Nerella, Muhammad Ali, Hesham Salama, Marvin Tegeler, et al.
iBain - Intelligent-data-guided process design for fatigue-resistant steel components with bainitic microstructure
Plattform MaterialDigital (PMD) Vollversammlung, Berlin, Germany - 28.06.2022
Ingo Steinbach, Oleg Shchyglo, Irina Roslyakova, Volker Mohles, et al.
Intelligent-data-guided process design for fatigue-resistant bainitic steel: iBain invited
The 8th International Conference on Solid-Phase Transformations in Inorganic Materials, online event - 15.12.2021
Irina Roslyakova, Uchechukwu Nwachukwu, Abdulmonem Obaied, Oliver Horst, et al.
Computer vision for analysis of microstructure evolution invited
MRM 2021, Yokohama, Japan, hybrid conference - 15.06.2021
Muhammad Ali, Oleg Shchyglo, Ingo Steinbach
Phase-field coupled strain gradient crystal plasticity model to study high temperature creep in Ni-based superalloys
15th International Conference on Creep and Fracture of Engineering Materials and Structures, online event - 22.03.2021
Irina Roslyakova, Setareh Zomorodpoosh, Muhammad Ali, Abdulmonem Obaied, Ingo Steinbach
Application of artificial intelligence to the design of a novel superalloy
Materials Data Science for Accelerating Materials Discovery and Design, Bochum, Germany - 17.02.2021
Irina Roslyakova, Setareh Zomorodpoosh, Muhammad Ali, Abdulmonem Obaied, Ingo Steinbach
Artificial materials intelligence (AMI) to accelerate discovery of novel superalloys
ML & AI @ RUB Research Exchange Workshop, Bochum, Germany - 30.01.2020
Irina Roslyakova, Setareh Zomorodpoosh, Muhammad Ali, Abdulmonem Obaied, et al.
Data mining and machine learning applied to thermodynamic and mechanical properties of superalloys
Superalloy Data Science, Ruhr-Universität Bochum, Germany - 13.01.2020
Irina Roslyakova, Setareh Zomorodpoosh, Mansur Ahmed, Abdulmonem Obaied, et al.
Creep Indication Model: recent development
SFB TR 103 Transferproject T2, Interaction meeting with ThemoCalc AB, Solna, Sweden - 12.12.2019
Ingo Steinbach, Mansur Ahmed, Muhammad Ali, Irina Roslyakova
3-D phase-field simulations to machine-learn 3-D features from 2-D microstructure invited
Materials Research Meeting 2019, Yokohoma, Japan - 02.12.2019
Waseem Amin, Muhammad Ali, Alexander Hartmaier, Ingo Steinbach
Creep and strengthening through interfaces explained by dislocation-based strain-gradient crystal plasticity-phase field method
MRD's 2nd Young Materials Researchers Day, Ruhr-Universität Bochum, Germany - 22.07.2019
Mansur Ahmed, , Muhammad Ali, Steffen Neumeier, et al.
Image-based microstructure-property analysis using machine learning techniques supported by phase-field simulations
The 4th International Symposium on Phase-Field Modelling in Materials Science, Ruhr-Universität Bochum, Germany - 24.07.2019
Waseem Amin, Muhammad Ali, Oleg Shchyglo
Micromechanical modeling of metals using strain gradient plasticity-phase field method
The 4th International Symposium on Phase-Field Modelling in Materials Science, Ruhr-University Bochum, Bochum, Germany - 12.03.2019
Ingo Steinbach, Muhammad Ali, Johannes Görler, Oleg Shchyglo
Effect of diffusion and creep on rafting of Ni-base superalloys: a phase-field study in comparison to experiments invited
MINES ParisTech, Paris, France - 26.10.2018
Johannes Görler, Muhammad Ali, Oleg Shchyglo, Ingo Steinbach
Simulation of rafting and topological inversion in Ni-base superalloys invited
2018 KIM Fall Conference: Symposium on Microstructure Modeling of Materials, Daejeon, South Korea - 26.10.2018
Ingo Steinbach, Muhammad Ali, Oleg Shchyglo, Carolin Koerner
Stress-strain evolution during rapid solidification and self-tempering of additive manufactured Ni-base superalloys simulated by a mesoscopic phase-field model invited
2018 KIM Fall Conference: Symposium on Microstructure Modeling of Materials, Daejeon, South Korea - 12.10.2018
Ingo Steinbach, Muhammad Ali, Johannes Görler
Full-field simulation of Ni-base turbine blades: From precipitation to rafting and under creep conditions invited
Society of Engineering Sciences 2018, Madrid, Spain
Education
2018. M. Sc., Material Science and Simulation, ICAMS
2013. B. Sc., Metallurgical and Material Engineering , University of the Punjab