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Publications of Former WG Modelling and PDEs

Articles (90)

  1. M. Eden, H. S. Mahato.
    Homogenization of a Poroelasticity Model for Fibre-Reinforced Hydrogels.
    Mathematical Methods in the Applied Sciences, Early view online , 2022.

    DOI: 10.1002/mma.8466

  2. S. Grützner, A. Muntean.
    Identifying processes governing damage evolution in quasi-static elasticity. Part 1 – Analysis.
    Advances in Mathematical Sciences and Applications, 30(2):305-334, 2021.

    online at: https://mcm-www.jwu.ac.jp/~aikit/AMSA/pdf/abstract/2021/016_2021_top.pdf

  3. T. Gerken, S. Grützner.
    Dynamic Inverse Wave Problems – Part I: Regularity for the Direct Problem.
    Inverse Problems, 36(2), IOPscience, 2020.

    DOI: 10.1088/1361-6420/ab47ec
    online at: https://iopscience.iop.org/article/10.1088/1361-6420/ab47ec

  4. M. Wolff.
    On Build-up of Epidemiologic Models - Development of a SEI^3RSD model for the Spread of SARS-CoV-2.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, , 36 pp., WILEY-VCH, 2020.

    DOI: 10.1002/zamm.202000230

  5. M. Eden.
    Homogenization of a Moving Boundary Problem With Prescribed Normal Velocity.
    Advances in Mathematical Sciences and Applications, 28(1):313-341, 2019.
  6. M. Wolff, M. Böhm, H. Altenbach.
    Application of the Müller-Liu entropy principle to gradient-damage models in the thermo-elastic case.
    International Journal of Damage Mechanics, 27(3):387-408, 2018.

    DOI: 10.1177/1056789516679495

  7. S. Boettcher.
    Existence and uniqueness of the solution of thermo-elasto-plasticity with phase transitions in TRIP steels under mixed boundary conditions.
    Journal of Applied Analysis, 24(1):87-98, 2018.

    DOI: 10.1515/jaa-2018-0009

  8. M. Wolff, M. Böhm.
    Continuous bodies with thermodynamically active singular sharp interfaces .
    Mathematics and Mechanics of Solids, 22:434-476, 2017.
  9. M. Eden, A. Muntean.
    Corrector estimates for the homogenization of a two-scale thermoelasticity problem with a priori known phase transformations.
    Electronic Journal of Differential Equations , 2017(57):1-21, 2017.

    online at: https://ejde.math.txstate.edu/Volumes/2017/57/eden.pdf

  10. H. van Asperen, T. Warneke, S. Sabbatini, M. Höpker, T. Chiti, G. Nicolini, D. Papale, M. Böhm, J. Notholt.
    Diurnal variation in respiratory CO2 flux in an arid ecosystem.
    Agricultural and Forest Meteorology, 234:95-105, Elsevier, 2017.
  11. M. Eden, A. Muntean.
    Homogenization of a fully coupled thermoelasticity problem for a highly heterogeneous medium with a priori known phase transformations.
    Mathematical Methods in the Applied Sciences, 40(11):3955-3972, 2017.

    DOI: 10.1002/mma.4276
    online at: https://onlinelibrary.wiley.com/doi/epdf/10.1002/mma.4276

  12. H. S. Mahato, M. Böhm, S. Kräutle, P. Knabner.
    Upscaling of a system of semilinear parabolic partial differential equations coupled with a system of nonlinear ordinary differential equations originating in the context of crystal dissolution and precipitation inside a porous medium: existence theory ..
    Advances in Mathematical Sciences and Applications, 26:39-80, 2017.
  13. N. H. Kröger, M. Wolff, M. Böhm.
    On mathematical problems for viscoelastic multi-mechanism models in the isothermal case.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 96(5):550-569, 2016.

    DOI: 10.1002/zamm.201400171

  14. M. Höpker.
    Sharp Interface Limit of a Homogenized Phase Field Model for Phase Transitions in Porous Media.
    Electronic Journal of Diff erential Equations, 2016(258):1-8, 2016.

    online at: http://ejde.math.txstate.edu/Volumes/2016/258/abstr.html

  15. M. Wolff, S. Bökenheide, M. Böhm.
    Some new extensions to multi-mechanism models for plastic and viscoplastic material behavior under small strains.
    Continuum Mechanics and Thermodynamics, 28:821-852, 2016.

    DOI: 10.1007/s00161-015-0418-5
    online at: http://dx.doi.org/10.1007/s00161-015-0418-5

  16. M. Böhm, M. Höpker.
    A note on modelling with measures: Two-Features Balance Equations.
    Mathematical Biosciences and Engineering, 12(2):279-290, 2015.

    DOI: 10.3934/mbe.2015.12.279

  17. H. S. Mahato, M. Böhm.
    An existence result for a system of coupled semilinear diffusion-reaction equations with flux boundary conditions.
    European Journal of Applied Mathematics, 26:121-143, 2015.
  18. R. Mahnken , A. Schneidt, T. Antretter, U. Ehlenbröker, M. Wolff.
    Multi-scale modeling of bainitic phase transformation in multi-variant polycrystalline low alloy steels.
    International Journal of Solids and Structures, 54:156-171, 2015.
  19. S. Boettcher, M. Böhm, M. Wolff.
    Well-posedness of a thermo-elasto-plastic problem with phase transitions in TRIP steels under mixed boundary conditions.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 95:1461-1476, 2015.

    DOI: 10.1002/zamm.201300287

  20. M. Höpker, M. Böhm.
    A note on the existence of extension operators for Sobolev spaces on periodic domains.
    Comptes Rendus Mathematique, 352(10):807-810, Elsevier, 2014.

    DOI: 10.1016/j.crma.2014.09.002

  21. S. Dobberschütz.
    Homogenization of a diffusion-reaction system with surface exchange and evolving hypersurface.
    Mathematical Methods in the Applied Sciences, 38(3):559-579, Wiley, 2014.

    DOI: 10.1002/mma.3089

  22. M. Eden, M. Böhm.
    Homogenization of a poro-elasticity model coupled with diffusive transport and a first order reaction for concrete.
    Networks and Heterogeneous Media, 9(4):599-615, 2014.

    DOI: 10.3934/nhm.2014.9.599

  23. P. Schneider, R. Kienzler, M. Böhm.
    Modeling of consistent second-order plate theories for anisotropic materials.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 94:21-42, 2014.

    DOI: 10.1002/zamm.201100033

  24. S. Dobberschütz, M. Böhm.
    The construction of periodic unfolding operators on some compact Riemannian manifolds.
    Advances in Pure and Applied Mathematics, 5(1):31-45, 2014.

    DOI: 10.1515/apam-2013-0013

  25. R. Mahnken , M. Wolff, C. Cheng.
    A Multi-Mechanism Model for Cutting Simulations Combining Visco-plastic Asymmetry and Phase Transformation.
    International Journal of Solids and Structures, 50(20):3045-3066, Elsevier, 2013.

    DOI: 10.1016/j.ijsolstr.2013.05.008
    online at: http://www.sciencedirect.com/science/article/pii/S0020768313002023

  26. H. S. Mahato, M. Böhm.
    Global existence and uniqueness for a system of semilinear multi-species diffusion-reaction equations.
    The Journal of Applied Analysis and Computation, 3(4):357-376, 2013.

    online at: http://jaac-online.com/index.php/jaac/article/view/173

  27. H. S. Mahato, M. Böhm.
    Homogenization of a system of semilinear diffusion-reaction equations in an H^{1,p} setting.
    Electronic Journal of Diff erential Equations, 210:1-22, 2013.

    online at: http://ejde.math.txstate.edu/Volumes/2013/210/mahato.pdf

  28. S. Dobberschütz, M. Böhm.
    A Periodic Unfolding operator on certain compact Riemannian manifolds.
    Comptes Rendus de l'Académie des Sciences. Série I. Mathématique, 350, 1027– 1030, Elsevier, 2012.
  29. M. Wolff, M. Böhm, S. Bökenheide, D. Lammers, T. Linke.
    An implicit algorithm to verify creep and TRIP behavior of steel using uniaxial experiments.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 92(5):355-379, Wiley, 2012.

    DOI: 10.1002/zamm.201100083

  30. S. Bökenheide, M. Wolff.
    Comparison of different approaches to verify creep behaviour of 100Cr6 steel.
    Computational Materials Science, 64:34-37, Elsevier, 2012.

    DOI: 10.1016/j.commatsci.2012.04.016
    online at: http://dx.doi.org/10.1016/j.commatsci.2012.04.016

  31. S. Bökenheide, M. Wolff, M. Dalgic, D. Lammers, T. Linke.
    Creep, phase transformations and transformation-induced plasticity of 100Cr6 steel during heating.
    Materialwissenschaft und Werkstofftechnik, 43(1):143-149, WILEY-VCH, 2012.

    DOI: 10.1002/mawe.201100902

  32. R. Mahnken , M. Wolff, A. Schneidt, M. Böhm.
    Multi-Phase Transformations at Large Strains – Thermodynamic Framework and Simulation.
    International Journal of Plasticity, 39:1-26, Elsevier, 2012.

    DOI: 10.1016/j.ijplas.2012.05.009

  33. M. Wolff, M. Böhm, S. Bökenheide, M. Dalgic.
    Some Recent Developments in Modelling of Heat-Treatment Phenomena in Steel within the Collaborative Research Centre SFB 570 "Distortion Engineering".
    Materialwissenschaft und Werkstofftechnik, 43(1):136-142, WILEY-VCH, 2012.

    DOI: 10.1002/mawe.201100901

  34. M. Wolff, M. Böhm, S. Bökenheide, N. H. Kröger.
    Two-Mechanism Approach in Thermo-Viscoelasticity with Internal Variables.
    Technische Mechanik, 32(2):608-621, 2012.

    online at: http://www.uni-magdeburg.de/ifme/zeitschrift_tm/2012_Heft2_5/45_Wolff.html

  35. N. H. Kröger, M. Böhm, M. Wolff.
    Viscoelasticity within the framework of isothermal two-mechanism models.
    Computational Materials Science, 64:30-33, Elsevier, 2012.

    DOI: 10.1016/j.commatsci.2012.04.017
    online at: http://dx.doi.org/10.1016/j.commatsci.2012.04.017

  36. M. Wolff, M. Böhm, R. Mahnken , B. Suhr.
    Implementation of an algorithm for general material behavior of steel taking interaction of plasticity and transformation-induced plasticity into account.
    International Journal for Numerical Methods in Engineering, 87:1183-1206, WILEY-VCH, 2011.

    DOI: 10.1002/nme.3154

  37. A. Muntean, M. Böhm, J. Kropp.
    Moving carbonation fronts in concrete: a moving-sharp-interface approach.
    Chemical Engineering Science, 66:538-547, 2011.
  38. M. Wolff, M. Böhm, L. Taleb.
    Thermodynamic Consistency of Two-mechanism Models in the Non-isothermal Case.
    Technische Mechanik, 31(1):58-80, 2011.

    online at: http://www.uni-magdeburg.de/ifme/zeitschrift_tm/2011_Heft1/07_Wolff.html

  39. J. Prakash, G. P. Raja Sekhar, S. De, M. Böhm.
    A criterion to avoid starvation zones for convection-diffusion-reaction problem inside a porous biological pellet under oscillatory flow.
    International Journal of Engineering Science, 48:693-707, Elsevier, 2010.

    DOI: 10.1016/j.ijengsci.2010.02.004

  40. S. Dobberschütz, M. Böhm.
    A transformation approach for the derivation of boundary conditions between a curved porous medium and a free fluid.
    Comptes Rendus Mecanique, 338:71-77, Elsevier, 2010.

    DOI: 10.1016/j.crme.2010.02.001

  41. J. Prakash, G. P. Raja Sekhar, S. De, M. Böhm.
    Convection, diffusion and reaction inside a spherical porous pellet in the presence of oscillatory flow.
    European Journal of Mechanics - B/Fluids, 29(6):483-493, Elsevier, 2010.

    DOI: 10.1016/j.euromechflu.2010.05.002

  42. M. Wolff, B. Suhr, C. Simsir.
    Parameter identification for an Armstrong-Frederick hardening law for supercooled austenite of SAE 52100 steel.
    Computational Materials Science, 50:487-495, Elsevier, 2010.

    DOI: 10.1016/j.commatsci.2010.09.009

  43. C. Simsir, M. Dalgic, T. Lübben, A. Irretier, M. Wolff, H. Zoch.
    The Bauschinger effect in the supercooled austenite of SAE 52100 steel.
    Acta Materialia, 58(13):4478-4491, Elsevier, 2010.

    DOI: 10.1016/j.actamat.2010.04.044

  44. A. Muntean, M. Böhm.
    A moving-boundary problem for concrete carbonation: Global existence and uniqueness of weak solutions.
    Journal of Mathematical Analysis and Applications, 350(1):234-251, 2009.
  45. M. Wolff, M. Böhm, B. Suhr.
    Comparison of different approaches to transformation-induced plasticity in steel.
    Materialwissenschaft und Werkstofftechnik, 40(5):454-459, WILEY-VCH, 2009.

    DOI: 10.1002/mawe.200900476

  46. B. Suhr, F. Frerichs, I. Hüßler, M. Wolff.
    Evaluation of models for martensitic transformation and TRIP via comparison of experiments and simulations.
    Materialwissenschaft und Werkstofftechnik, 40(5):460-465, WILEY-VCH, 2009.

    DOI: 10.1002/mawe.200900477

  47. A. Muntean, M. Böhm.
    Interface conditions for fast-reaction fronts in wet porous mineral materials: The case of concrete carbonation.
    Journal of Engineering Mathematics, 65(1):89-100, Springer Verlag, 2009.

    DOI: 10.1007/s10665-009-9295-x

  48. M. Peter, M. Böhm.
    Multi-scale modelling of chemical degradation mechanisms in porous media with evolving microstructure.
    Multiscale Modeling & Simulation, 7(4):1643-1668, SIAM, 2009.

    DOI: 10.1137/070706410

  49. S. Meier.
    A homogenisation-based two-scale model for reactive transport in media with evolving microstructure.
    Comptes Rendus Mecanique, 336(8):623-628, Elsevier, 2008.
  50. S. Meier, A. Muntean.
    A two-scale reaction-diffusion system with micro-cell reaction concentrated on a free boundary.
    Comptes Rendus Mecanique, 336(6):481-486, Elsevier, 2008.
  51. M. Peter, A. Muntean, S. Meier, M. Böhm.
    Competition of several carbonation reactions in concrete: A parametric study.
    Cement and Concrete Research, 38(12):1385-1393, 2008.
  52. M. Wolff, L. Taleb.
    Consistency for two multi-mechanism models in isothermal plasticity .
    International Journal of Plasticity, 24:2059-2083, Elsevier, 2008.

    DOI: 10.1016/j.ijplas.2008.03.001
    online at: http://www.sciencedirect.com/science/article/pii/S0749641908000375#

  53. M. Peter, M. Böhm.
    Different choices of scaling in homogenization of diffusion and interfacial exchange in a porous medium.
    Mathematical Methods in the Applied Sciences, 31(11):1257-1282, 2008.
  54. M. Wolff, M. Böhm, F. Frerichs.
    Dimensional analysis of a model problem in thermoelasto-plasticity for cylindrical bodies under heating and cooling.
    ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, 88(10):758-775, 2008.
  55. A. Muntean.
    Error bounds on semi-discrete finite element approximations of a moving-boundary system arising in concrete corrosison.
    International Journal of Numerical Analysis and Modeling, 5(3):363-372, 2008.
  56. M. Wolff, M. Böhm, M. Dalgic, I. Hüßler.
    Evaluation of models for TRIP and stress-dependent transformation behaviour for the martensitic transformation of the steel 100Cr6.
    Computational Materials Science, 43:108-114, 2008.
  57. M. Wolff, M. Böhm, D. Helm.
    Material behavior of steel – Modeling of complex phenomena and thermodynamic consistency.
    International Journal of Plasticity, 24:746-774, 2008.
  58. M. Böhm, S. Meier, M. Peter.
    Was zerstört Stahlbeton-Brücken? - Wie Mathematiker mit Mehrskalenmethoden zur Materialforschung beitragen.
    Praxis der Mathematik in der Schule, 20:39-43, 2008.
  59. S. Meier, M. Böhm.
    A note on the construction of function spaces for distributed-microstructure models with spatially varying cell geometry.
    International Journal of Numerical Analysis and Modeling, 5:109-125, 2007.
  60. S. Meier, M. Peter, M. Böhm.
    A two-scale modelling approach to reaction–diffusion processes in porous materials.
    Computational Materials Science, 39:49-54, 2007.
  61. A. Muntean.
    Concentration blow up in a two-phase non-equilibrium model with source term.
    Meccanica, 42:409-411, 2007.
  62. S. Meier, M. Peter, A. Muntean, M. Böhm.
    Dynamics of the internal reaction layer arising during carbonation of concrete.
    Chemical Engineering Science, 62(4):1125-1137, 2007.
  63. M. Peter.
    Homogenisation in domains with evolving microstructure .
    Comptes Rendus Mecanique, 335(7):357-362, 2007.
  64. M. Peter.
    Homogenisation of a chemical degradation mechanism inducing an evolving microstructure.
    Comptes Rendus Mecanique, 335(11):679-684, 2007.
  65. M. Wolff, C. Acht, M. Böhm, S. Meier.
    Modelling of carbon diffusion and ferritic phase transformations in an unalloyed hypoeutectoid steel.
    Archives of Mechanics, 59(4):435-466, 2007.
  66. F. Frerichs, T. Lübben, F. Hoffmann, H. Zoch, M. Wolff.
    Unvermeidbare Maßänderungen durch thermische Spannungen.
    Zeitschrift für Werkstoffe, Wärmebehandlung, Fertigung, 62(5):229-235, 2007.
  67. M. Wolff, M. Böhm, M. Dalgic, G. Löwisch, J. Rath.
    Validation of a TRIP model with backstress for the pearlitic transformation of the steel 100Cr6 under step-wise loads .
    Computational Materials Science, 39:29-34, 2007.
  68. M. Peter, M. H. Meylan.
    Water-wave scattering by a semi-infinite periodic array of arbitrary bodies.
    Journal of Fluid Mechanics, 575:473-494, 2007.
  69. A. Muntean, M. Böhm.
    A moving two-reaction zones model: Global existence of solutions.
    PAMM, 6(1):649-650, 2006.
  70. S. Meier, M. Böhm.
    A two-scale reaction–diffusion system with time-dependent microstructure.
    PAMM, 6(1):647-648, 2006.
  71. A. Narimanyan, A. Muntean.
    Mathematical modeling driven by two industrial applications: A moving-boundary approach.
    Mathematical Modelling and Analysis, 11(3):1-19, 2006.
  72. M. Wolff, M. Böhm, M. Dalgic, G. Löwisch, N. Lysenko, J. Rath.
    Parameter identification for a TRIP model with backstress.
    Computational Materials Science, 37:37-41, 2006.
  73. M. Wolff, M. Böhm.
    Transformation-induced plasticity: Modelling and analysis in 3-d case with more than two phases .
    PAMM, 6(1):415-416, 2006.
  74. M. Peter, M. H. Meylan, C. M. Linton.
    Water-wave scattering by a periodic array of arbitrary bodies.
    Journal of Fluid Mechanics, 548:237-256, 2006.
  75. A. Schmidt, B. Suhr, T. Moshagen, M. Wolff, M. Böhm.
    Adaptive Finite Element Simulations for Macroscopic and Mesoscopic Models.
    Materialwissenschaft und Werkstofftechnik, 37(1):142-146, 2005.
  76. M. Wolff, M. Böhm, G. Löwisch, A. Schmidt.
    Modelling and testing of transformation-induced plasticity and stress-dependent phase transformations in steel via simple experiments.
    Computational Materials Science, 32:604-610, 2005.
  77. M. Wolff, M. Böhm, A. Schmidt.
    Modelling of steel phenomena and its interactions – an internal-variable approach.
    Materialwissenschaft und Werkstofftechnik, 37(1):147-151, 2005.
  78. M. Wolff, M. Böhm.
    On the singularity of the Leblond model for TRIP and its influence on numerical calculations.
    Journal of Materials Engineering and Performance, 14:119-122, 2005.
  79. M. Wolff, M. Böhm, M. Dalgic, G. Löwisch, J. Rath.
    TRIP and phase evolution for the pearlitic transformation of the steel 100Cr6 under step-wise loads.
    Materialwissenschaft und Werkstofftechnik, 37(1):128-133, 2005.
  80. M. Peter, M. H. Meylan, H. Chung.
    Wave scattering by a circular elastic plate in water of finite depth: A closed form solution.
    International Journal of Offshore and Polar Engineering, 14(2):81-85, 2004.
  81. M. Böhm, M. Hunkel, A. Schmidt, M. Wolff.
    Evaluation of various phase-transition models for 100Cr6 for application in commercial FEM-programmes.
    Journal de Physique, 4(120):581-589, 2004.
  82. S. Dashkovskiy, M. Böhm.
    Finite thermoplasticity with phase changes based on isomorphisms.
    International Journal of Plasticity, 20:323-334, 2004.

    online at: http://www.math.uni-bremen.de/~dsn/Publications/IJP.pdf

  83. M. Peter, M. H. Meylan.
    Infinite-depth interaction theory for arbitrary floating bodies applied to wave forcing of ice floes.
    Journal of Fluid Mechanics, 500:145-167, 2004.
  84. S. Dashkovskiy, M. Böhm.
    Modeling of elastoplastic materials with phase changes.
    Journal de Physique, 4(120):153-160, 2004.
  85. S. Dashkovskiy, M. Böhm.
    Objective modeling of some elastoplastic materials with phase changes.
    Journal de Physique, 4(120):153-160, 2004.

    online at: http://www.math.uni-bremen.de/~dsn/Publications/Nancy.ps

  86. M. Wolff, M. Böhm, A. Schmidt.
    Phase transitions and transformation-induced plasticity of steel in the framework of continuum mechanics.
    Journal de Physique, 4(120):145-152, 2004.
  87. M. Peter, M. H. Meylan.
    The eigenfunction expansion of the infinite depth free surface Green function in three dimensions.
    Wave Motion, 40:1-11, 2004.
  88. M. Wolff, A. Schmidt, M. Böhm.
    Thermo-mechanical behaviour of steel including phase transitions and transformation-induced plasticity.
    PAMM, 2(1):206-207, 2003.
  89. M. Wolff, M. Böhm.
    Umwandlungsplastizität bei Stählen im Konzept der Thermoelasto-Plastizität modelliert mit dem Ansatz einer Zwischenkonfiguration.
    Technische Mechanik, 23(1):29-48, 2003.
  90. M. Böhm, J. Devinny, F. Jahani, I. G. Rosen.
    On a moving-boundary system modeling corrosion in sewer pipes.
    Applied Mathematics and Computation, 92:247-269, Elsevier, 1998.

Proceedings (29)

  1. M. Wolff, M. Böhm.
    Some remarks on moving sharp interfaces.
    IUTAM Symposium on Growing Solids, 23.06-27.06.2015, Moscow, Russian Federation.

    DOI: 10.1016/j.piutam.2017.06.005

  2. S. Boettcher, M. Böhm, M. Wolff.
    A comprehensive model of thermo-elasto-plasticity with phase transitions in steel.
    8th German-Greek-Polish Symposium on Recent Advances in Mechanics, 09.09-13.09.2013, Goslar, Germany.
    Book of Abstracts, R. Kienzler, S. Boettcher (Eds.), 2013.
  3. N. H. Kröger, M. Wolff.
    Anisotropic viscoelasticity within the framework of isothermal two-mechanism models.
    European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), 10.09-14.09.2012, Vienna, Austria.
  4. R. Mahnken , M. Wolff, A. Schneidt.
    Macro modelling for multi-phase transformations at large strains.
    European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), 10.09-14.09.2012, Vienna, Austria.
  5. S. Bökenheide, J. Montalvo Urquizo, M. Wolff.
    Modelling of creep and TRIP during heating and austenitisation.
    European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), 10.09-14.09.2012, Vienna, Austria.
  6. S. Bökenheide, M. Wolff, M. Dalgic, D. Lammers, T. Linke.
    Creep, phase transformations and transformation-induced plasticity of 100Cr6 steel during heating.
    3rd International Conference on Distortion Engineering, 14.09.-16.09.2011, Bremen, Germany.
    Proceedings of the 3rd International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), pp. 411-418, 2011.
  7. M. Wolff, M. Böhm, S. Bökenheide, M. Dalgic.
    Some Recent Developments in Modelling of Heat-Treatment Phenomena in Steel within the Collaborative Research Centre SFB 570 "Distortion Engineering".
    3rd International Conference on Distortion Engineering, 14.09.-16.09.2011, Bremen, Germany.
    Proceedings of the 3rd International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), pp. 389-398, 2011.
  8. M. Wolff, M. Böhm, B. Suhr.
    Two-mechanism Models - some aspects of modelling.
    PAMM.
    Proceedings in Applied Mathematics and Mechanics, 10(1):345-346, 2010.

    DOI: 10.1002/pamm.201010165

  9. M. Wolff, M. Böhm.
    Two-mechanism models and modelling of creep.
    3rd International Conference on Nonlinear Dynamics, 21.09.-24.09.2010, Kharkov, Ukraine.
    Proceedings of the 3rd International Conference on Nonlinear Dynamics, J. V. Mikhlin, M. V. Perepelkin (Eds.), 2010.
  10. C. Ziemer, K. Marczyska, A. Szczepańska, J. Zyprych, J. Hageman, T. Doeswijk.
    An objective method to associate local weather extremes with characteristic circulation stuctures.
    The 67th European Study Group Mathematics with Industry, 26.-30.01.2009, Wageningen, The Netherlands.
    Proceedings of the 67th European Study Group Mathematics with Industry, J. Molenaar, K. Keesman, J. van Opheusden, T. Doeswijk (Eds.), 2009.

    online at: http://www.swi2009.wur.nl

  11. M. Wolff, M. Böhm, B. Suhr.
    Dimensional analysis of a model problem for cylindrical steel work-pieces in the case of phase transformations.
    New challenges in heat treatment and surface engineering, 09.06.-12.06.2009, Dubrovnik, Croatia.
    Proc. New challenges in heat treatment and surface engineering, B. Smoljan, B. Matijevic (Eds.), pp. 247-252, 2009.
  12. C. Archer, E. F. G. van Daalen, S. Dobberschütz, M. Godeau, J. Grasman, M. Gunsing, M. Muskulus, A. Pischanskyy, M. Wakker.
    Dynamical Models of Extreme Rolling of Vessels in Head Waves.
    The 67th European Study Group Mathematics with Industry, 26.-30.01.2009, Wageningen, The Netherlands.
    Proceedings of the 67th European Study Group Mathematics with Industry, J. Molenaar, K. Keesman, J. van Opheusden, T. Doeswijk (Eds.), 2009.

    online at: http://www.swi2009.wur.nl

  13. F. van Beckum, J. B. van den Berg, S. Boettcher, M. de Gee, K. Kumar, J. van Opheusden.
    Stiffening while drying.
    The 67th European Study Group Mathematics with Industry, 26.-30.01.2009, Wageningen, The Netherlands.
    Proceedings of the 67th European Study Group Mathematics with Industry, J. Molenaar, K. Keesman, J. van Opheusden, T. Doeswijk (Eds.), 2009.

    online at: http://www.swi2009.wur.nl

  14. A. Muntean, M. Böhm, S. Meier.
    A moving-boundary model with Stefan-Signorini conditions to predict service life of concrete structures.
    International RILEM Workshop on Integral Service Life Modelling of Concrete Structures, 05.11.-06.11.2007, Guimarães, Portugal.
    RILEM Proceedings PRO 56: International RILEM Workshop on Integral Service Life Modelling of Concrete Structures, R. M. Ferreira, J. Gulikers, C. Andrade (Eds.), pp. 55-62, 2008.
  15. S. Meier, M. Peter, A. Muntean, M. Böhm, J. Kropp.
    A two-scale approach to concrete carbonation.
    International RILEM Workshop on Integral Service Life Modelling of Concrete Structures, 05.11.-06.11.2007, Guimarães, Portugal.
    RILEM Proceedings PRO 56: International RILEM Workshop on Integral Service Life Modelling of Concrete Structures, R. M. Ferreira, J. Gulikers, C. Andrade (Eds.), pp. 3-10, 2008.
  16. M. Wolff, M. Böhm, B. Suhr.
    Comparison of different approaches to transformation-induced plasticity in steel.
    2nd International Conference on Distortion Engineering, 17.09.-19.09.2008, Bremen, Germany.
    Proceedings of the 2nd International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), pp. 401-409, 2008.
  17. B. Suhr, F. Frerichs, I. Hüßler, M. Wolff.
    Evaluation of models for martensitic transformation and TRIP via comparison of experiments and simulations.
    2nd International Conference on Distortion Engineering, 17.09.-19.09.2008, Bremen, Germany.
    Proceedings of the 2nd International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), pp. 421-429, 2008.
  18. M. Böhm, A. Muntean, A. Schmidt.
    On the motion of internal carbonation layers.
    Abschlusskolloquium des DFG Schwerpunktprogramms 1122, 21.02.-22.02.2008, Hamburg, Germany.
    To appear in Prediction of time dependent damage due to physical-technical processes in mineral building materials, Proceedings of Abschlusskolloquium DFG SPP 1122.
  19. A. Schmidt, A. Muntean, M. Böhm.
    Moving carbonation fronts around corners: a self-adaptive finite element approach.
    5th International Essen Workshop, TRANSCON '07, 11.06.-13.06.2007, Essen, Germany.
    Proceedings of the 5th International Essen Workshop, TRANSCON '07, M. Setzer (Eds.), pp. 467-476, Aedificatio Publishers, 2007.
  20. A. Muntean, M. Böhm, A. Schmidt.
    Secondary reaction effects on the motion of carbonation fronts in concrete: a moving-boundary strategy.
    5th International Essen Workshop, TRANSCON '07, 11.06.-13.06.2007, Essen, Germany.
    Proceedings of the 5th International Essen Workshop, TRANSCON '07, M. Setzer (Eds.), pp. 399-411, Aedificatio Publishers, 2007.
  21. F. Frerichs, T. Lübben, F. Hoffmann, H. Zoch, M. Wolff.
    Unavoidable distortion due to thermal stresses.
    5th International Conference on Quenching and Control of Distortion, 25.04.-27.04.2007, Berlin, Germany.
    Proceedings of the 5th International Conference on Quenching and Control of distortion, 2007.
  22. A. Muntean, M. Böhm.
    Lower bounds on the weak solution of a moving-boundary problem describing the carbonation penetration in concrete.
    4th Workshop on Mathematical Modelling of Environmental and Life Sciences Problems, 09.2005, Constanta, Romania.
    Proc. 4th Workshop on Mathematical Modelling of Environmental and Life Sciences Problems , S. Ion, G. Marinoschi, C. Popa (Eds.), pp. 175-184, Editura Academiei Romane, 2006.
  23. M. Peter, M. Böhm.
    Scalings in homogenisation of reaction, diffusion and interfacial exchange in a two-phase medium.
    Equadiff 11, 25.-29.06.2005, Bratislava, Slovakia.
    Proc. Equadiff-11, M. Fila, A. Handlovicova, K. Mikula, M. Medved, P. Quittner, D. Sevcovic (Eds.), pp. 369-376, 2005.
  24. A. Schmidt, B. Suhr, T. Moshagen, M. Wolff, M. Böhm.
    Adaptive finite element simulations for macroscopic and mesoscopic models.
    1st International Conference on Distortion Engineering, 14.09.-16.09.2005, Bremen, Germany.
    Proceedings of the 1st International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), 2005.
  25. M. Wolff, M. Böhm, A. Schmidt.
    Modelling of steel phenomena and its interactions - an internal-variable approach.
    1st International Conference on Distortion Engineering, 14.09.-16.09.2005, Bremen, Germany.
    Proceedings of the 1st International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), 2005.
  26. S. Meier, M. Böhm.
    On a micro-macro system arising in diffusion–reaction problems in porous media.
    Equadiff 11, 25.-29.06.2005, Bratislava, Slovakia.
    Proc. Equadiff-11, M. Fila, A. Handlovicova, K. Mikula, M. Medved, P. Quittner, D. Sevcovic (Eds.), pp. 259-263, 2005.
  27. M. Wolff, M. Böhm, M. Dalgic, G. Löwisch, J. Rath.
    TRIP and phase evolution for the pearlitic transformation of the steel 100Cr6 under step-wise loads.
    1st International Conference on Distortion Engineering, 14.09.-16.09.2005, Bremen, Germany.
    Proceedings of the 1st International Conference on Distortion Engineering, T. Lübben, H. Zoch (Eds.), 2005.
  28. A. Muntean, M. Böhm.
    On a moving reaction layer model for the prediction of the service life of concrete structures.
    Performance based Engineering for 21st Century, 25.-27.08.2004, Iasi, Romania.
    Proceedings of the International Conference Performance based Engineering for 21st Century, 2004.
  29. A. Muntean, M. Böhm.
    On a prediction model for the service life of concrete structures based on moving boundaries .
    2nd International Conference Lifetime Oriented Design Concepts (ICLODC 2004), 01.03.-03.03.2004, Bochum, Germany.
    Proceedings of the 2nd International Conference Lifetime Oriented Design Concepts (ICLODC 2004) , F. Stangenberg, O. T. Bruhns, D. Hartmann, G. Meschke (Eds.), 2004.

Book Chapters (8)

  1. S. Grützner, A. Muntean.
    Brief Introduction to Damage Mechanics and its Relation to Deformations.
    Mathematical Analysis of Continuum Mechanics and Industrial Applications II, P. van Meurs, M. Kimura, H. Notsu (Eds.), Mathematics for Industry, Springer Verlag, 2018.

    DOI: 10.1007/978-981-10-6283-4

  2. M. Wolff, M. Böhm.
    A Note on Plasticity with Additional Internal Variables.
    Advanced Methods of Continuum Mechanics for Materials and Structures, K. Naumenko, M. Aßmus (Eds.), pp. 205-222, Springer Verlag, 2016.
  3. A. Muntean, E. N. M. Cirillo, O. Krehel, M. Böhm.
    Pedestrians moving in the dark: balancing measures and playing games on lattices.
    Collective dynamics from bacteria to crowds: an excursion through modeling, analysis and simulation, A. Muntean, F. Toschi (Eds.), pp. 75-103, Springer Verlag, 2014.
  4. T. Bartel, A. Bartels, U. Ehlenbröker, R. Mahnken , A. Menzel, J. Mosler, R. Ostwald, A. Schneidt, M. Wolff.
    Modeling and Simulation of Solid Materials.
    Functionally Graded Materials in Industrial Mass Production - Fundamentals, W. Homberg, D. Biermann, H. Heim (Eds.), pp. 113-128, Verlag Wissenschaftliche Scripten, Auerbach, Germany, 2013.
  5. A. Muntean, M. Böhm, A. Schmidt.
    On the motion of internal carbonation layers.
    Simulation of Time Dependent Degradation of Porous Materials (Final report on Priority Program 1122 DFG), L. Franke, G. Deckelmann, R. Espinosa-Marzal (Eds.), pp. 53-67, Cuvillier Verlag, 2009.
  6. A. Muntean, M. Böhm.
    Dynamics of a Moving Reaction Interface in a Concrete Wall .
    Free Boundary Problems - Theory and Applications, International Series of Numerical Mathematics, Volume 154 , pp. 317-326 , Springer Verlag, 2007.

    DOI: 10.1007/978-3-7643-7719-9

  7. M. Wolff, M. Böhm, A. Schmidt.
    A thermodynamically consistent model of the material behaviour of steel including phase transformations, classical and transformation-induced plasticity.
    Trends in Applications of Mathematics to Mechanics, Y. Wang, K. Hutter (Eds.), Shaker Verlag, 2005.
  8. S. Dashkovskiy, M. Böhm.
    Modeling of the thermal treatment of steel with phase changes.
    Advances in Mechanics and Mathematics, R. Ogden, D. Gao (Eds.), New Kluwer Series, 2003.

    online at: http://www.math.uni-bremen.de/~dsn/Publications/KL_PHASES.pdf

PhD/Habilitation Thesis (12)

  1. M. Eden.
    Homogenization of Thermoelasticity Systems Describing Phase Transformations.
    Dissertationsschrift, Universität Bremen, 2018.

    online at: https://elib.suub.uni-bremen.de/edocs/00106499-1.pdf

  2. M. Höpker.
    Extension Operators for Sobolev Spaces on Periodic Domains, Their Applications, and Homogenization of a Phase Field Model for Phase Transitions in Porous Media.
    Dissertationsschrift, Universität Bremen, 2016.

    online at: http://nbn-resolving.de/urn:nbn:de:gbv:46-00105393-12

  3. S. Bökenheide.
    Modelling and simulation of inelastic phenomena in the material behaviour of steel during heat treatment processes.
    Dissertationsschrift, Universität Bremen, Logos Verlag, 2015.
  4. H. S. Mahato.
    Homogenization of a system of multi-species diffusion-reaction equations in H\{1,p} setting.
    Dissertationsschrift, Universität Bremen, 2013.
  5. N. H. Kröger.
    Multi-Mechanism Models - Theory and Applications .
    Dissertationsschrift, Universität Bremen, 2013.

    online at: http://nbn-resolving.de/urn:nbn:de:gbv:46-00103525-14

  6. S. Dobberschütz.
    Homogenization techniques for lower dimensional structures.
    Dissertationsschrift, Universität Bremen, 2012.

    online at: http://nbn-resolving.de/urn:nbn:de:gbv:46-00102769-13

  7. S. Boettcher.
    Modelling, Analysis and Simulation of Thermo-Elasto-Plasticity with Phase Transitions in Steel.
    Dissertationsschrift, Universität Bremen, Logos Verlag, 2012.

    online at: http://www.logos-verlag.de/cgi-bin/buch/isbn/3296

  8. Y. Tijani.
    Modeling and Simulation of Thermochemical Heat Treatment Processes: A Phase Field Calculation of Nitriding in Steel.
    Dissertationsschrift, Universität Bremen, 2008.
  9. S. Meier.
    Two-scale models for reactive transport and evolving microstructure.
    Dissertationsschrift, Universität Bremen, 2008.

    Ausgezeichnet mit dem Studienpreis der unifreunde Bremen

  10. M. Wolff.
    Zur Modellierung des Materialverhaltens von Stahl unter Berücksichtigung von Phasenumwandlungen und Umwandlungsplastizität.
    Habilitationsschrift, Universität Bremen, 2008.
  11. M. Peter.
    Coupled reaction–diffusion systems and evolving microstructure: mathematical modelling and homogenisation.
    Dissertationsschrift, Universität Bremen, Logos Verlag, 2007.

    Ausgezeichnet mit dem Studienpreis der unifreunde Bremen

  12. A. Muntean.
    A Moving-Boundary Problem: Modeling, Analysis and Simulation of Concrete Carbonation.
    Dissertationsschrift, Universität Bremen, Cuvillier Verlag, 2006.

Preprints (11)

  1. M. Wolff, M. Böhm.
    On parameter identification for general linear elliptic problems of second order.
    Berichte aus der Technomathematik 18-01, Universität Bremen, 2018.
  2. M. Höpker, M. Böhm.
    Existence of Boundary-Value-Respecting Extension Operators for Sobolev Spaces on Periodic Domains.
    Zur Veröffentlichung eingereicht.
  3. S. Boettcher, M. Böhm, M. Wolff.
    Review of some results of well-posedness for models of thermo-elasto-plasticity with phase transitions in steel.
    Berichte aus der Technomathematik 16-02, Universität Bremen, 2016.
  4. S. Boettcher.
    Well-posedness of a quasi-static problem in thermo-elasto-plasticity with phase transitions in TRIP steels under mixed boundary conditions.
    Berichte aus der Technomathematik 16-04, Universität Bremen, 2016.
  5. M. Höpker, M. Böhm.
    Derivation of an effective model for a phase-field description of solid-liquid transformations in porous media.
    Berichte aus der Technomathematik 14-02, Universität Bremen, 2014.
  6. S. Boettcher, M. Wolff, M. Böhm.
    A comprehensive model of thermo-elasto-plasticity with phase transitions in steel.
    Berichte aus der Technomathematik 13-01, Universität Bremen, 2013.
  7. M. Böhm.
    A Note on Global Weak Solutions for Semilinear Parabolic Systems Modelling Equilibrium Reactions (Part 1).
    Berichte aus der Technomathematik 13-05, Universität Bremen, 2013.
  8. M. Wolff, S. Bökenheide, J. Schlasche, D. Büsing, M. Böhm, H. Zoch.
    An extended approach to multi-mechanism models in plasticity-theory and parameter identification.
    Berichte aus der Technomathematik 13-06, Universität Bremen, 2013.
  9. E. N. M. Cirillo, O. Krehel, M. Böhm, A. Muntean.
    Pedestrians moving in the dark: Balancing measures and playing games on lattices.
    Berichte aus der Technomathematik 13-04, Universität Bremen, 2013.
  10. M. Wolff, M. Böhm.
    Zu einem neuen Ansatz zur Parameterbestimmung in der Mechanik der Festkörper.
    Berichte aus der Technomathematik 13-03, Universität Bremen, 2013.
  11. N. H. Kröger, M. Böhm, M. Wolff.
    Viskoelastisches Zwei-Mechanismen-Modell für einen eindimensionalen Stab.
    Berichte aus der Technomathematik 12-02, Universität Bremen, 2012.

Miscellaneous (36)

  1. M. Böhm, S. Boettcher.
    Mathematik für Ingenieure.
    Resonanz. Magazin für Lehre und Studium an der Universität Bremen, 2015.

    online at: http://blogs.uni-bremen.de/resonanz/2015/04/20/mathematik-fuer-ingenieure/

  2. S. Boettcher.
    Über eine mathematische Aufgabe zum Materialverhalten von Stahl mit Phasenumwandlungen und Umwandlungsplastizität.
    Berichte aus der Technomathematik 12-01, Universität Bremen, 2012.
  3. M. Wolff, M. Böhm, L. Taleb.
    Two-mechanism models with plastic mechanisms - modelling in continuum-mechanical framework.
    Berichte aus der Technomathematik 10-05, Universität Bremen, 2010.
  4. S. Meier, A. Muntean.
    A two-scale reaction-diffusion system with micro-cell reaction concentrated on a free boundary.
    CASA Report No. 08-01, Depart. Mathematics and Computer Science, Technische Universität Eindhoven, Netherlands, 2008.
  5. S. Meier, A. Muntean.
    Fas-reaction asymptotics for a two-scale reaction-diffusion system.
    CASA Report No. 08-31, Depart. Mathematics and Computer Science, Technische Universität Eindhoven, Netherlands, 2008.
  6. A. Muntean, M. Böhm.
    A moving-boundary problem for concrete carbonation: global existence and uniqueness of weak solutions.
    CASA Report No. 07-25, Depart. Mathematics and Computer Science, Technische Universität Eindhoven, Netherlands, 2007.
  7. M. Wolff, F. Frerichs, N. Lysenko.
    Bewerten von Modellen der Martensitbildung bei nichtmonotoner Abkühlung für den Stahl 100Cr6.
    Berichte aus der Technomathematik 07-01, Universität Bremen, 2007.
  8. M. Wolff, S. Boettcher, M. Böhm.
    Phase transformations in steel in the multi-phase case - general modelling and parameter identification.
    Berichte aus der Technomathematik 07-02, Universität Bremen, 2007.
  9. M. Wolff, S. Boettcher, M. Böhm, I. Loresch.
    Vergleichende Bewertung von makroskopischen Modellen für die austenitisch-perlitische Phasenumwandlung im Stahl 100Cr6.
    Berichte aus der Technomathematik 07-03, Universität Bremen, 2007.
  10. A. Muntean, M. Böhm.
    A sharp-interface moving-boundary system modeling carbonation penetration in concrete.
    Berichte aus der Technomathematik 06-03, Universität Bremen, 2006.
  11. A. Muntean.
    Error bounds on a semi-discrete finite element approximation of the weak solution to a one phase moving-boundary system describing concrete carbonation.
    Berichte aus der Technomathematik 06-05, Universität Bremen, 2006.
  12. A. Muntean, M. Böhm.
    Length scales in the concrete carbonation process and water barrier effect: a matched asymptotics approach.
    Berichte aus der Technomathematik 06-07, Universität Bremen, 2006.
  13. M. Wolff, M. Böhm, S. Meier.
    Modellierung der Wechselwirkung von Kohlenstoff-Diffusion und ferritischen Phasenumwandlungen für einen untereutektoiden unlegierten Stahl.
    Berichte aus der Technomathematik 06-04, Universität Bremen, 2006.
  14. M. Wolff, M. Böhm.
    Transformation-induced plasticity in steel - general modelling, analysis and parameter identification.
    Berichte aus der Technomathematik 06-02, Universität Bremen, 2006.
  15. A. Muntean, S. Meier, M. Peter, M. Böhm, J. Kropp.
    A note on limitations of the use of accelerated concrete-carbonation tests for service-life predictions.
    Berichte aus der Technomathematik 05-04, Universität Bremen, 2005.
  16. S. Meier, M. Peter, A. Muntean, M. Böhm.
    Modelling and simulation of concrete carbonation with internal layers.
    Berichte aus der Technomathematik 05-02, Universität Bremen, 2005.
  17. M. Peter, A. Muntean, S. Meier, M. Böhm.
    Modelling and simulation of concrete carbonation: competition of several carbonation reactions.
    Berichte aus der Technomathematik 05-03, Universität Bremen, 2005.
  18. A. Schmidt, A. Muntean, M. Böhm.
    Numerical Experiments with Self-Adaptive Finite Element Simulations in 2D for the Carbonation of Concrete.
    Berichte aus der Technomathematik 05-01, Universität Bremen, 2005.
  19. M. Böhm, J. Kropp, A. Muntean.
    A Two-Reaction-Zones Moving-Interface Model for Predicting Ca(OH)_2-Carbonation in Concrete.
    Berichte aus der Technomathematik 03-04, Universität Bremen, 2003.
  20. S. Dashkovskiy, M. Böhm, A. Schmidt, M. Wolff.
    Comparison of several kinetic equations for pearlite transformation in100Cr6 steel.
    Berichte aus der Technomathematik 03-07, Universität Bremen, 2003.
  21. A. Schmidt, M. Wolff, M. Böhm.
    Numerische Untersuchungen für ein Modell des Materialverhaltens mit Umwandlungsplastizität und Phasenumwandlungen beim Stahl 100Cr6 (Teil 1).
    Berichte aus der Technomathematik 03-13, Universität Bremen, 2003.
  22. M. Böhm, J. Kropp, A. Muntean.
    On a Prediction Model for Concrete Carbonation based on Moving Interfaces - Interface concentrated Reactions.
    Berichte aus der Technomathematik 03-03, Universität Bremen, 2003.
  23. R. Grotmaack, A. Muntean.
    Stabilitätsanalyse eines Moving-Boundary-Modells der beschleunigten Karbonatisierung von Portlandzementen.
    Berichte aus der Technomathematik 03-12, Universität Bremen, 2003.
  24. M. Wolff, M. Böhm, S. Dashkovskiy.
    Volumenanteile versus Massenanteile - der Dilatometerversuch aus der Sicht der Kontinuumsmechanik.
    Berichte aus der Technomathematik 03-01, Universität Bremen, 2003.
  25. M. Wolff, F. Frerichs, B. Suhr.
    Vorstudie für einen Bauteilversuch zur Umwandlungsplastizität bei der perlitischen Umwandlung des Stahls 100Cr6.
    Berichte aus der Technomathematik 03-10, Universität Bremen, 2003.
  26. M. Böhm, S. Dashkovskiy, M. Hunkel, T. Lübben, M. Wolff.
    Übersicht über einige makroskopische Modelle für Phasenumwandlungen im Stahl.
    Berichte aus der Technomathematik 03-09, Universität Bremen, 2003.
  27. M. Wolff, B. Suhr.
    Zum Vergleich von Massen- und Volumenanteilen bei der perlitischen Umwandlung der Stähle 100Cr6 und C80.
    Berichte aus der Technomathematik 03-11, Universität Bremen, 2003.
  28. M. Wolff, M. Böhm, S. Dashkovskiy, G. Löwisch.
    Zur makroskopischen Modellierung von spannungsabhängigem Umwandlungsverhalten und Umwandlungsplastizität bei Stählen und ihrer experimentellen Untersuchung in einfachen Versuchen.
    Berichte aus der Technomathematik 03-06, Universität Bremen, 2003.
  29. S. Dashkovskiy, M. Böhm.
    A Note on Finite Thermoplasticity with Phase Changes.
    Berichte aus der Technomathematik 02-04, Universität Bremen, 2002.
  30. M. Böhm, M. Hunkel, A. Schmidt, M. Wolff.
    Evaluation of various phase-transition models for 100Cr6 for application in commercial FEM programs.
    Berichte aus der Technomathematik 02-14, Universität Bremen, 2002.
  31. M. Wolff, M. Böhm.
    Phasenumwandlungen und Umwandlungsplastizität bei Stählen im Konzept der Thermoelasto-Plastizität.
    Berichte aus der Technomathematik 02-05, Universität Bremen, 2002.
  32. M. Wolff.
    Ringvorlesung: Distortion Engineering 2 Kontinuumsmechanische Modellierung des Materialverhaltens von Stahl unter Berücksichtigung von Phasenumwandlungen.
    Berichte aus der Technomathematik 02-13, Universität Bremen, 2002.
  33. M. Wolff, M. Böhm.
    Zur Modellierung der Thermoelasto-Plastizität mit Phasenumwandlungen bei Stählen sowie der Umwandlungsplastizität.
    Berichte aus der Technomathematik 02-01, Universität Bremen, 2002.
  34. M. Wolff.
    Einführung des Drucks für die instationären Stokes-Gleichungen mittels der Methode von Kaplan.
    Berichte aus der Technomathematik 01-09, Universität Bremen, 2001.
  35. M. Wolff, E. Bänsch, M. Böhm, D. Davis.
    Modellierung der Abkühlung von Stahlbrammen.
    Berichte aus der Technomathematik 00-07, Universität Bremen, 2000.
  36. O. Schmidtmann, J. M. Anders.
    Numerical Investigation of Compressor Instabilities.
    Projektbericht, Universität Bremen, 1999.