Just another WordPress site - Ruhr-Universität Bochum
Ruhr-Universität Bochum
IC-FW 02/707
Universitätsstr. 150
44801 Bochum
Tel.: +49 234 32 22443
E-Mail: yanling.schneider@ruhr-uni-bochum.de
Research
Research Areas:
- Multiscale simulations
- Microstructure and damage evolution of metallic materials
- Crystal plasticity, grain growth, and recrystallization
- Material properties in transition zones
- Fatigue
- Material properties in the transition zones between nano-micro and micro-macro scales
- Physical, mechanical, and structural properties of metal matrix composites
- Deformation behavior of functionally graded materials and additively manufactured materials
- Theory development to describe the deformation behavior of materials.
- Big-data-driven science applied in materials science
- Autonomous data processing methods
- Machine learning
- Digital image segmentation
Research Focus:
Micromechanical and multiscale finite element (FE) simulation, fatigue and damage development, material properties in transition zone, autonomous data processing and machine learning.
Competences
Micromechanical simulation and artificial microstructure generation
Fatigue and damage development
Many-scale simulation
Autonomous processing in material characterization
- Y. Schneider, V. Guski, A. Sahin, S. Schmauder, et al.
Investigation of auxetic structural deformation behavior of PBAT polymers using process and finite element simulation. Polymers, 15, 3142, (2023) - J. Hufert, A. Grebhardt, Y. Schneider, C. Bonten, S. Schmauder
Deformation behavior of 3D printed auxetic structures of thermoplastic polymers: PLA, PBAT, and blends. Polymers, 15, 389, (2023) - A. Sangsefidi, S. Dibajian, J. Kadkhodapour, A. Anaraki, et al.
An Abaqus plugin for evaluation of the Auxetic structure performance. Engineering with Computers, 38, 1681–1704, (2022) - Y. Schneider, D. Rapp, Y. Yang, W. Wasserbäch, S. Schmauder
Many-scale investigations of deformation behavior of polycrystalline composites: II—micro-macro simultaneous FE and discrete dislocation dynamics simulation. Materials, 15, 2852, (2022) - Y. Schneider, U. Weber, Ch. Xu, R. Zielke, et al.
Experimental and numerical investigations of micro-meso damage evolution for a WC/Co-type tool material. Materialia, 21, 101343, (2022) - Y. Schneider, R. Zielke, C. Xu, M. Tayyab, et al.
Experimental investigations of micro-meso damage evolution for a Co/WC-type tool material with application of digital image correlation and machine learning. Materials, 14, 3562, (2021) - Y. Schneider, W. Wasserbäch, S. Schmauder, Z. Zhou, et al.
A numerical method to improve the representativeness of real microstructure cut-outs applied in finite element simulations. Crystals, 11, 382, (2021) - Y. Schneider, U. Weber, W. Wasserbäch, R. Zielke, et al.
A numerical method for the generation of hierarchical Poisson Voronoi microstructures applied in micromechanical finite element simulations—part I: method. Computational Mechanics, 66, 651–667, (2020) - Y. Schneider, A. Bertram, T. Böhlke
Three-dimensional simulation of local and global behaviour of αFe-Cu composites under large plastic deformation. Technische Mechanik, 33, 34-51, (2019) - E. Postek, Y. Schneider, S. Schmauder
Impact of WC/Co/diamond sample with peridynamics. Supercomputing Frontiers Europe 2019, 11-14 March, Warsaw, Poland, 1-4, (2019) - Z. Zhou, S. Sun, L. Zou, Y. Schneider, et al.
Enhanced strength and high temperature resistance of 25Cr20Ni ODS austenitic alloy through thermo-mechanical treatment and addition of Mo. Fusion Engineering and Design, 138, 175–182, (2019) - G. Liang, S. Schmauder, M. Lyu, Y. Schneider, et al.
An investigation of the influence of initial roughness on the friction and wear behavior of ground surfaces. Materials, 11, 237, (2018) - Y. Schneider, W. Wasserbäch, S. Schmauder
Experimental and micro‐macro integrated FE investigation of texture and microstructure evolution in polycrystalline Ag‐SnO2 metal matrix composites. PAMM, 17, 461–462, (2017) - Y. Schneider, E. Soppa, C. Kohler, R. Mokso, E. Roos
Numerical and experimental investigations of the global and local behaviour of an Al(6061)/Al2O3 metal matrix composite under low cycle fatigue. Procedia Engineering, 10, 1515–1520, (2011) - Y. Schneider, A. Bertram, T. Böhlke, C. Hartig
Plastic deformation behaviour of Fe–Cu composites predicted by 3D finite element simulations. Computational Materials Science, 48, 456–465, (2010) - E. Soppa, Y. Schneider, R. Mokso, Ch. Kohler, et al.
Crack Initiation in the Al(6061)/Al2O3 Composite under Monotonic and Cyclic Loading. ICF-18 Dresden, 13 Aug - 14 Sept 2010, 1-8, (2010) - Y. Schneider, A. Bertram, T. Böhlke, C. Hartig
Plastic deformation behaviour of Fe-Cu composites modelled by real morphologies. MicroMacro-Interactions, 63-76, (2008) - Y. Schneider
Simulation of the deformation behaviour of two-phase composites. 136, (2007)
Professional Experience
09.2008 – 04.2023
Scientific researcher with participation in teaching, Materials Testing Institute (MPA), Institute for Materials Testing, Materials Science and Strength of Materials (IMWF), University of Stuttgart
10.2006 – 08.2008
Computer aided engineer, TECOSIM GmbH
08.2003 – 09.2006
Research assitant, Institute of Mechanics (IFME), Otto-von-Guericke-University Magdeburg
08.2000 – 08.2001
Assistant engineer, Tianjin Wah Sang Gas Holding Limited (Tianjin, China)
Education
2006. Dr.-Ing., Mechanical Engineering, Otto von Guericke Universität Magdeburg
2003. M. Sc., Computational Mechanics of Materials and Structures, U. Stuttgart
2000. B.Sc., Civil Engineering, U. Hebei