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ICAMSDr. Muhammad Ali
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
- D. Nerella, M. Ali, H. Salama, O. Gülbay, et al.
Automated workflow for phase‐field simulations: Unveiling the impact of heat‐treatment parameters on bainitic microstructure in steel. Advanced Engineering Materials, n/a, 2400905, (2024) - I. Steinbach, M. Uddagiri, H. Salama, M. Ali, O. Shchyglo
Highly complex materials processes as understood by phase-field simulations: Additive manufacturing, bainitic transformation in steel and high-temperature creep of superalloys. MRS Bulletin, 49, 583–593, (2024) - H. Salama, M. Ali, O. Shchyglo, I. Steinbach
Phase-field simulation framework for modeling martensite and bainite formation in steel. Computational Materials Science, 241, 113033, (2024) - O. Shchyglo, M. Ali, H. Salama
Efficient finite strain elasticity solver for phase-field simulations. npj Computational Materials, 10, 52, (2024) - M. Ali, O. Shchyglo, M. Stricker, I. Steinbach
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) - 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) - 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, O. Horst, I. Lopez-Galilea, D. Langenkämper, 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
2023. PhD, Mechanical Engineering, Ruhr-Universität Bochum
2018. M. Sc., Material Science and Simulation, ICAMS
2013. B. Sc., Metallurgical and Material Engineering , University of the Punjab