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• Numerical analysis of residual stresses on microscale and mesoscale in hot bulk forming parts under specific cooling.
  S Uebing, D Brands, L Scheunemann, Sarhil M., R Niekamp, C Kock, A Chugreev, B.-A. Behrens und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 19, Nr. 1, S. 201900017. (2019)
  
• Experimental and Numerical Investigations of the Development of Residual Stresses in Thermo-Mechanically Processed Cr-Alloyed Steel 1.3505.
  B.-A. Behrens, J Schröder, D Brands, L Scheunemann, R Niekamp, A Chugreev, M Sarhil, S Uebing und C Kock
  Metals, Vol. 9, Nr. 4, S. 480 - 28. (2019)
  
• On a tangential-conforming finite element formulation for the relaxed micromorphic model in 2D.
  M Sarhil, L Scheunemann, P Neff und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 21, Nr. 1, S. 202100187. (2021)
  
• Lagrange and $H(\text curl,\mathcal B)$ based finite element formulations for the relaxed micromorphic model.
  J Schröder, M Sarhil, L Scheunemann und P Neff
  Computational Mechanics, Vol. 70, S. 1309 - 1333. (2022)
  
• Modeling the size-effect of metamaterial beams under bending via the relaxed micromorphic continuum.
  M Sarhil, L Scheunemann, J Schröder und P Neff
  Proceedings in Applied Mathematics and Mechanics, Vol. 22, Nr. 1, S. 202200033. (2023)
  
• On the identification of material parameters in the relaxed micromorphic continuum.
  M Sarhil, L Scheunemann, J Schröder und P Neff
  Proceedings in Applied Mathematics and Mechanics, Vol. 23, Nr. 3, S. 202300056. (2023)
  
• Size-effects of metamaterial beams subjected to pure bending. on boundary conditions and parameter identification in the relaxed micromorphic model.
  M Sarhil, L Scheunemann, J Schröder und P Neff
  Computational Mechanics, Vol. 72, Nr. 5, S. 1091 - 1113. (2023)
  
• Size-effects of metamaterial beams subjected to pure bending. on boundary conditions and parameter identification in the relaxed micromorphic model.
  M Sarhil, L Scheunemann, J Schröder und P Neff
  Computational Mechanics, Vol. 72, S. 1091 - 1113. (2023)
  DOI: 10.1007/s00466-023-02332-9
  
• On the numerical homogenization of real polycrystalline microstructures.
  L Scheunemann und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 22, Nr. 1, S. 202200251. (2023)
  
• A numerical study of the effect of phase evolution on residual stresses during cooling.
  S Uebing, D Brands, L Scheunemann und J Schröder
  PAMM, Vol. 20, Nr. 1, S. 202000236. (2021)
  DOI: https://doi.org/10.1002/pamm.202000236
  https://onlinelibrary.wiley.com/doi/abs/10.1002/pamm.202000236
  
• Reduced order models for material non-linearities in FEM applications.
  Y Özmen, L Scheunemann, P Nigro und J Schröder
  PAMM, Vol. 21, Nr. 1, S. 202100021. (2021)
  DOI: https://doi.org/10.1002/pamm.202100021
  https://onlinelibrary.wiley.com/doi/abs/10.1002/pamm.202100021
  
• Modeling the size-effect of metamaterial beams under bending via the relaxed micromorphic continuum.
  M Sarhil, L Scheunemann, J Schröder und P Neff
  Proceedings in Applied Mathematics and Mechanics, Vol. 22, Nr. 1, S. 202200033. (2023)
  
• Numerical investigation of hot bulk forming processes with respect to the resulting residual stress distribution.
  S Hellebrand, D Brands, L Scheunemann und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 22, Nr. 1, S. 202200155. (2023)
  
• On a tangential-conforming finite element formulation for the relaxed micromorphic model in 2D.
  M Sarhil, L Scheunemann, P Neff und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 21, Nr. 1, S. 202100187. (2021)
  DOI: https://doi.org/10.1002/pamm.202100187
  https://onlinelibrary.wiley.com/doi/abs/10.1002/pamm.202100187
  
• Lagrange and H(curl,B) based finite element formulations for the relaxed micromorphic model.
  J Schröder, M Sarhil, L Scheunemann und P Neff
  Computational Mechanics, Vol. 70, S. 1309 - 1333. (2022)
  DOI: https://doi.org/10.1007/s00466-022-02198-3
  
• Construction of Two- and Three-Dimensional Statistically Similar RVEs for Coupled Micro-Macro Simulations.
  D Balzani, L Scheunemann, D Brands und J Schröder
  Computational Mechanics, Vol. 54, S. 1269 - 1284. (2014)
  
• Construction of 3D statistically similar RVEs for dual-phase steel microstructures.
  D Balzani, L Scheunemann, D Brands und J Schröder
  XII International Conference on Computational Plasticity. Fundamentals and Applications, (2013-September 3–5)
  
• Simulation of dual phase steels based on three-dimensionalsional statistically similar RVEs.
  D Balzani, J Schröder, D Brands und L Scheunemann
  Proceedings of the 19th International Symposium on Plasticity and its Current Applications, (2013-January 3–8)
  
• Experimental and Numerical Investigations of the Development of Residual Stresses in Thermo-Mechanically Processed Cr-Alloyed Steel 1.3505.
  B.-A. Behrens, J Schröder, D Brands, L Scheunemann, R Niekamp, A Chugreev, M Sarhil, S Uebing und C Kock
  Metals, Vol. 9, Nr. 4, S. 480 - 28. (2019)
  
• Computational Modeling of Dual-Phase Steels Based on Representative Three-Dimensional Microstructures Obtained from EBSD Data.
  D Brands, D Balzani, L Scheunemann, J Schröder, H Richter und D Raabe
  Archive of Applied Mechanics, Vol. 86, Nr. 3, S. 575 - 598. (2016)
  
• On the analysis of microstructural residual stresses in hot bulk forming parts under specific cooling.
  D Brands, A Chugreev, C Kock, R Niekamp, L Scheunemann, S Uebing, B.-A. Behrens und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 18, Nr. 1, S. 201800256. (2018)
  
• A Computational Two-Scale Model for the Simulation of Dual-Phase Steels under Cyclic Loading.
  A Gandhi, D Balzani, D Brands, L Scheunemann und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 18, Nr. 1, S. 201800321. (2018)
  
• Scale-briding of elasto-plastic microstructures using statistically similar representative volume elements.
  L Scheunemann und Universität Duisburg-Essen
  (2017)
  
• Construction of Statistically Similar RVEs.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Analysis and Computation of Microstructure in Finite Plasticity. Lecture Notes in Applied and Computational Mechanics (78), (2015)
  
• Design of 3D Statistically Similar Representative Volume Elements based on Minkowski Functionals.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Mechanics of Materials, Vol. 90, S. 185 - 201. (2015)
  
• Study on statistically similar RVEs for real microstructures based on different statistical descriptors.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 15, Nr. 1, S. 467 - 468. (2015)
  DOI: 10.1002/pamm.201510224
  
• Comparison of Statistical Descriptors for the Construction of Statistically Similar RVEs.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 14, S. 539 - 540. (2014)
  
• Designing Statistically Similar RVEs for 3D Dual Phase Steel Microstructures.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 13, Nr. 1, S. 271 - 272. (2013)
  
• A Comparison of Different Statistical Measures for the Construction of Statistically Similar RVEs for dual phase steel microstructures.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Proceedings of PLASTICITY’15, (2015-January 4–9)
  
• Construction of Statistically Similar RVEs for 3D Microstructures.
  L Scheunemann, D Balzani, D Brands und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 12, Nr. 1, S. 429 - 430. (2012)
  
• Statistically similar RVE construction based on 3D dual-phase steel microstructures.
  L Scheunemann, D Balzani, D Brands, J Schröder und D Raabe
  Research and Applications in Structural Engineering, Mechanics & Computation, S. 411 - 416. (2013)
  
• Comparative Study for the Efficient Construction of Statistically Similar RVEs. Lineal-Path and Minkowski Functionals.
  L Scheunemann, D Brands, D Balzani und J Schröder
  Proceedings of the 11th World Congress on Computational Mechanics (WCCM XI), (2014)
  
• A novel algorithm for rate independent small strain crystal plasticity based on the infeasible primal-dual interior point method.
  L Scheunemann, P Nigro, J Schröder und P Pimenta
  International Journal of Plasticity, Vol. 124, S. 1 - 19. (2020)
  
• Numerical treatment of small strain single crystal plasticity based on the infeasible primal-dual interior point method.
  L Scheunemann, P Nigro und J Schröder
  International Journal of Solids and Structures, Vol. 232, S. 111149. (2021)
  DOI: 10.1016/j.ijsolstr.2021.111149
  
• Macroscopic yield curves based on statistically similar RVEs for 3D dual-phase steel microstructure.
  L Scheunemann, J Schröder und D Brands
  Insights and Innovations in Structural Engineering, Mechanics & Computation, S. 433 - 438. (2016)
  
• On the incorporation of microstructural information of two-phase steels in FE-Simulations of sheet metal forming.
  J Schröder, D Balzani, D Brands und L Scheunemann
  Proccedings of the “Forming Technology Forum 2012”, (2012-Juni 5-6,)
  
• Hochleistungsrechnen trifft Hochleistungsstahl.
  J Schröder, A Klawonn, L Scheunemann und M Lanser
  Essener Unikate 50, (2017)
  
• Small strain crystal plasticity based on the primal‐dual interior point method.
  L Scheunemann, P Nigro, J Schröder und P Pimenta
  Proceedings in Applied Mathematics and Mechanics, Vol. 19, Nr. 1, S. 201900499. (2019)
  DOI: 10.1002/pamm.201900499
  
• Numerical analysis of residual stresses on microscale and mesoscale in hot bulk forming parts under specific cooling.
  S Uebing, D Brands, L Scheunemann, M Sarhil, R Niekamp, C Kock, A Chugreev, B.-A. Behrens und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 19, Nr. 1, S. 201900017. (2019)
  DOI: 10.1002/pamm.201900017
  
• Numerical thermo-elasto-plastic analysis of residual stresses on different scales during cooling of hot forming parts.
  S Uebing, L Scheunemann, D Brands und J Schröder
  Proceedings of the 8th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, S. 235 - 238. (2019-August, 28-30)
  
• Model order reduction for small strain elastoplasticity based on an adaptive strategy.
  Y Özmen, P Nigro, L Scheunemann und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 20, Nr. 1, S. 202000182. (2021)
  DOI: 10.1002/pamm.202000182
  
• EXASTEEL. Towards a Virtual Laboratory for the Multiscale Simulation of Dual-Phase Steel Using High-Performance Computing.
  A Klawonn, M Lanser, M Uran, O Rheinbach, S Köhler, J Schröder, L Scheunemann, D Brands, D Balzani, A Gandhi, G Wellein, M Wittmann, O Schenk und R Janalík
  Software for Exascale Computing - SPPEXA 2016-2019, S. 351 - 404. (2020)
  
• Numerische Prozessauslegung zur gezielten Eigenspannungseinstellung in warmmassivumgeformten Bauteilen unter Berücksichtigung von Makro- und Mikroskala.
  B.-A. Behrens, J Schröder, D Brands, K Brunotte, H Wester, L Scheunemann, S Uebing und C Kock
  Forschung im Ingenieurwesen, Vol. 85, S. 757 - 771. (2021)
  DOI: 10.1007/s10010-021-00482-x
  
• Residual stresses in hot bulk formed parts. microscopic stress analysis for austenite-to-martensite phase transformation.
  S Uebing, D Brands, L Scheunemann und J Schröder
  Archive of Applied Mechanics, Vol. 91, S. 3603 - 3625. (2021)
  DOI: 10.1007/s00419-021-01921-5
  
• Residual stresses in hot bulk formed parts. two-scale approach for austenite-to-martensite phase transformation.
  S Uebing, D Brands, L Scheunemann und J Schröder
  Archive of Applied Mechanics, Vol. 91, S. 545 - 562. (2021)
  
• A comparative study of numerical approaches for the computation of effective properties of micro-heterogeneous materials.
  R Assaf, L Scheunemann, C Birk, J Schröder und E Ooi
  Proceedings in Applied Mathematics and Mechanics, Vol. 20, Nr. 1, S. 202000249. (2021)
  DOI: https://doi.org/10.1002/pamm.202000249
  
• Remarks on a primal-dual interior point algorithm for single crystal plasticity.
  L Scheunemann, P Nigro und J Schröder
  Proceedings in Applied Mathematics and Mechanics, Vol. 21, Nr. 1, S. 202100212. (2021)
  
• Adaptive methods for MOR in non-linear FE simulations of unit cells.
  Y Özmen, L Scheunemann, P Nigro und J Schröder
  Proceedings of Applied Mechanics and Mathematics, Vol. 22, Nr. 1, S. 202200065. (2023)
  
• On the numerical treatment of heat sources in laser beam welding processes.
  P Hartwig, L Scheunemann und J Schröder
  Proceedings in Applied Mechanics and Mathematics, Vol. 22, Nr. 1, S. 202200220. (2023)
  DOI: 10.1002/pamm.202200220
  
• A Physically Motivated Heat Source Model for LaserBeam Welding.
  P Hartwig, N Bakir, L Scheunemann, A Gumenyuk, J Schröder und M Rethmeier
  Metals, Vol. 14, Nr. 430, (2024)
  DOI: 10.3390/met14040430
  
• On the realization of periodic boundary conditions for periodic unitcells.
  Y von Hoegen, L Scheunemann, S Hellebrand und J Schröder
  Finite Elements in Analysis and Design, Vol. 229, Nr. 1, S. 104067. (2023)
  DOI: https://doi.org/10.1016/j.finel.2023.104067
  
• A computational approach to identify the material parameters of the relaxed micromorphic model.
  Mohammad Sarhil, Lisa Scheunemann, Peter Lewintan, Jörg Schröder und Patrizio Neff
  Computer Methods in Applied Mechanics and Engineering, Vol. 425, S. 116944. (2024)
  
• Construction of statistically similar representative volume elements - comparative study regarding different statistical descriptors.
  L Scheunemann, J Schröder, D Balzani und D Brands
  Procedia Engineering, Vol. 81, S. 1360 - 1365. (2014)
  
• Comparison of barrier update strategies for interior point algorithms in single crystal plasticity.
  Lisa Scheunemann, Felix Steinmetz und Paulo Nigro
  Archive of Applied Mechanics (submitted), (2024)
  
• Construction of Statistically Similar RVEs for 3D Microstructures.
  L Scheunemann, D Balzani, D Brands und J Schröder
  (2012)