Publikationen

2020

  • T. Bleistein, M. Reis, X. Cheng, C. Redenbach, S. Diebels, & A. Jung: Multiscale microsphere modelling of open-cell metal foams enriched by statistical analysis of geometric parameters, Mech. Mater., 142, 103295 (2020).
     

  • M. Reis, S. Diebels, & A. Jung: DIC Measurements on Single Struts of Ni/PU Hybrid Foams—Damage Behaviour During Three-Point Bending, In Developments and Novel Approaches in Biomechanics and Metamaterials (pp. 423-430). Springer, Cham (2020).
     

  • M. Reis, K. König, S. Diebels, & A. Jung: Micromechanical Characterisation of Ni/PU Hybrid Foams, Materials, 13(17), 3746 (2020).

2019

  • S. Neuhaus, H. Seibert, S. Diebels, Investigation of the damage behavior of polyurethane in stress relaxation experiments and estimation of the stress-at-break σb with a failure envelope. In: Öchsner A., Altenbach H. (eds.) Engineering Design Applications II. Advanced Structured Materials, Vol. 113, Springer, Cham (2019) (accepted)

  • B.J. Braun, T. Pohlemann, S.C. Herath, M. Klein, M.F. Rollmann, R. Derr, S. Diebels, M. Roland, An individualized simulation model based on continuous, independent, ground force measurements after intramedullary stabilization of a tibia fracture, Arch. Appl. Mech. (2019). doi.org/10.1007/s00419-019-01582-5

  • S. Diebels & S. Rjasanow (Hrsg.): Multi-scale Simulations of Composite Materials, Springer-Verlag (2019).

  • C. Röhrig & S. Diebels, Experimental Studies. In S. Diebels & S. Rjasanow (Hrsg.): Multi-scale Simulations of Composite Materials, Springer-Verlag (2019) 149-183.

  • A. Azarniya, H.R.M. Hosseini,A. Jung, M.J. Mirzaali, R.Yamanoglu, T. Varol, S. Sovizi, A. Azarniya, M.S. Safavi & S. Ramakrishna, Fracture Toughness and Energy Absorption of Aluminium Foams: A review, Engineering Failure Analysis (submitted)

  • M. Reis, M. Adorna, O. Jirousek, A. Jung, Improving DIC Accuracy in Experimental Setups, Adv. Eng. Mater. 19, 1900092 (2019) doi.org/10.1002/adem.201900092

  • T. Bleistein, M. Reis, T. Scheffer, A. Jung, A novel strategy to identify micro material properties of Al foams by a combination of single pore experiments and inverse calculations, Mech. Mater. (submitted)

  • T. Bleistein, S. Diebels, A. Jung, Parameter identification for open cell aluminium foams using inverse calculation, Comp. Math. Appl. (submitted)

  • A. Jung, K. Al Majthoub, Ch. Jochum, A.-M. Kirsch, F. Welsch, S. Seelecke, S. Diebels, Correlative digital image correlation and infrared thermography measurements for the investigation of the mesoscopic deformation behaviour of foams, J. Mech. Phys. Solids (submitted)

  • J. Luksch, A. Jung, Ch. Pauly, Ch. Motz, F. Mücklich, F. Schäfer, Effect of pretreatment on interface stability and morphology of Ni/Al hybrid foams by in situ microcantilever fracture experiments, Structural Integrity Procedia (2019) (accepted)

  • T. Bleistein, A. Jung, S. Diebels, A microsphere-based material model for open cell metal foams, Continuum. Mech. Therm. (2019) (accepted)

  • F. Concas, S. Diebels, A. Jung, Multiaxial investigation of PVC foams and analysis of the deformation mechanism by 3D-DIC, Acta Polytechnica CTU 19 (submitted)

  • A. Jung, S. Diebels, Micromechanical Characterization of Metal Foams, Adv. Eng. Mater. (2019) (accepted)

  • R. Derr, A. Jung, S. Diebels, Development of a simulation model for the automatic optimization of tools for tube embossing, CIRP J. Manuf. Sci. Techn. (2019) (accepted)

  • T. Bleistein, M. Reis, X. Cheng, C. Redenbach, S. Diebels, A. Jung, Multiscale microsphere modelling of open-cell metal foams enriched by statistical analysis of geometric parameters, Mech. Mater. (submitted 2019)

  • F. Concas, S. Diebels, A. Jung, Multiaxial failure surface of PVC foams and monitoring of deformation bands by three-dimensional digital image correlation, J. Mech. Phys. Solids (submitted 2019)

  • M. Felten, M. Fries, A.D. Pullen, W.G. Prous, A. Jung, Investigation of strain-rate effects in Ni/PU hybrid foams under low-impact velocities, Int. J. Impact Eng. (submitted 2019)

  • A. Jung, T. Bleistein, S. Diebels, Modelling of Cellular Materials by a Microsphere-based Material Model, Proc. Appl. Math. Mech. (PAMM) 19 (submitted 2019)

  • Ch. Grill, A. Jung, S. Diebels, Influence of Electrodeposition Parameters on the Coating Process on Open Porous Media, Proc. Appl. Math. Mech. (PAMM) 19 (submitted 2019)

  • M. Reis, S. Diebels, A. Jung, Noise reduction for DIC measurements and single strut testing, Proc. Appl. Math. Mech. (PAMM) 19 (submitted 2019)

  • R. Derr, A. Jung, S. Diebels, Development of a simulation model for the automatic optimization of tools for multi-dimensional tube forming, Proc. Appl. Math. Mech. (PAMM) 19 (submitted 2019)

2018

  • S. Diebels, F. Goldschmidt, F. Scherff, Continuum Modelling of Ageing Adhesive Joints. In W. Possart & M. Brede: Adhesive Joints: Ageing and Durability of Epoxies and Polyurethanes, Wiley (2018) 205-228.

  • F. Goldschmidt, S. Diebels, F. Scherff,  L. Depollier, J.E. Huacuja-Sanchez, W. Possart, Viscoelasticity in Ageing Joints–Experiments and Simulation. In W. Possart & M. Brede: Adhesive Joints: Ageing and Durability of Epoxies and Polyurethanes, Wiley (2018) 355-374.

  • O. Hesebeck, F. Goldschmidt, S. Diebels, Cohesive Zone Model for Moist Adhesive Joints. In W. Possart & M. Brede: Adhesive Joints: Ageing and Durability of Epoxies and Polyurethanes, Wiley (2018) 405-426.

  • W. Ripplinger, M. Schwarz, S. Diebels & H.-G. Herrmann, Auxetic aluminum sheets in lightweight structures, Materials Testing, 60(11):1071–1076 (2018).

  • A. Jung, J. Luksch, S. Diebels, F. Schäfer & C. Motz, In-situ and ex-situ microtensile testing of individual struts of Al foams and Ni/Al hybrid foams, Mater. Des. 153, 104-119 (2018).

  • Dörlich V., Linn J., Diebels S. (2018) Flexible Beam-Like Structures - Experimental Investigation and Modeling of Cables. In: Altenbach H., Jablonski F., Müller W., Naumenko K., Schneider P. (eds) Advances in Mechanics of Materials and Structural Analysis. Advanced Structured Materials, vol 80. Springer, Cham.

  • S. Heinze, T. Bleistein, A. Düster, S. Diebels, A. Jung, Experimental and numerical investigation of single pores for identification of effective metal foams properties,Z. Angew. Math. Mech. 98, 682-695 (2018).

  • A. Jung & S. Diebels, Yield surfaces for solid foams: A review on experimental characterization and modeling, GAMM Mitteilungen 41, 1-14 (2018).

  • A. Jung, J. Luksch, T. Bleistein, J. Adrien, E. Maire, In-situ and ex-situ micro mechanical testing of open-cell metal foams, Proc. Appl. Math. Mech. (PAMM) 18, e201800213 (2018) doi.org/10.1002/pamm.201800213

  • T. Bleistein, A. Jung, S. Diebels, Multiscale characterisation and simulation of open cell metal foams, Proc. Appl. Math. Mech. (PAMM) 18, e201800211 (2018) doi.org/10.1002/pamm.201800211

  • Ch. Grill, A. Jung, S. Diebels, Modelling and simulation of the coating process on open porous metal foams, Proc. Appl. Math. Mech. (PAMM) 18, e201800254 (2018) doi.org/10.1002/pamm.201800254

  • M. Adorna, P. Zlamal, T. Fila, J. Flata, M. Felten, M. Fries, A. Jung, Testing of hybrid nickel-polyurethane foams at high strain-rates using digital image correlation, Acta Polytechnica CTU 18, 72–76 (2018)

  • A. Jung, S. Bronder, S. Diebels, M. Schmidt, S. Seelecke, Thermographic investigation of strain rate effects in Al foams and Ni/Al hybrid foams, Mater. Des. 160, 363-370 (2018)

2017

  • A. Jung & S. Diebels, Microstructural characterisation and experimental determination of a multiaxial yield surface for open-cell aluminium foams, Mater. Des. 131, 252-264 (2017).

  • H. Seibert & S. Diebels, Microstructural characterisation and experimental determination of a multiaxial yield surface for open-cell aluminium foams, Proceedings 10th ECCMR 2017. Munich (2017).

  • V. Dörlich, P. Češarek, J. Linn & S. Diebels, Experimental investigation and numerical modeling of resultant-based bending plasticity in cables, Proceedings ECCOMAS Thematic Conference on Multibody Dynamics. Prague, pages 39-48, (2017), ISBN: 978-80-01-06173-2.

  • V. Dörlich, J. Linn & S. Diebels, Bending of Viscoplastic Cables, Proc. Appl. Math. Mech. 17, 293-294 (2017).

  • T. Fíla , O. Jiroušek, A. Jung & I. Kumpová, Identification of strain fields in pure Al and hybrid Ni/Al metal foams using X-ray microtomography under loading, J. Instrum. doi:10.1088/1748-0221/11/11/C11017.

  • A. Jung, J. Luksch, M. Felten, M. Reis, D. R. Sory, A. D. Pullen, W. G. Proud, M. Larcher, G. Valsamos & G. Solomos, Investigation of strain-rate effects in Al foams and Ni/Al hybrid foams on different scales, Proc. Appl. Math. Mech. 17, 317-318 (2017).

  • C. Röhrig, T. Scheffer & S. Diebels, Mechanical characterization of a short fiber-reinforced polymer at room temperature: experimental setups evaluated by an optical measurement system, Continuum Mechanics and Thermodynamics, published online, (2017), DOI:10.1007/s00161-017-0560-3.

2016

  • M. Peroni, A. Jung, M. Larcher, G. Solomos, High strain-rate properties of hybrid aluminium and polyurethane foams, Proceedings 1st International Conference on Impact Loading of Structures and Materials. Turin (2016).

  • H. Seibert, T. Scheffer & S. Diebels, Thermomechanical characterisation of cellular rubber, Continuum Mechanics and Thermodynamics, 28:1495-1509, (2016), DOI: 10.1007/s00161-015-0491-9.

  • D. Foetz, D. Quinten, G. Falk, A. Jung, T. Bleistein & S. Diebels, Cellular magnesia/carbon refractories: Processing, (thermo-)mechanical characterization and finite element modeling, Refractories World Forum, 8(2): 102-109, (2016).

  • T. Fíla, I. Kumpová, P. Koudelka, P. Zlámal, D. Vavrík, O. Jiroušek & A. Jung, Dual energy X-ray micro-CT imaging of hybrid Ni/Al open-cell foam, J. Instrum., Volume 11, CO1005, (2016).

  • A. Jung & S. Diebels, Modelling of Metal Foams by a Modified Elastic Law, Mech. Mater., Volume 101: 61-70, (2016).

  • A. Jung, A.D. Pullen & W.G. Proud, Strain-rate effects in Ni/Al hybrid metal foams from quasi-static to low-velocity impact behavior, Comp. A.: Applied Science and Manufacturing, Volume 85: 1-11, (2016).

  • A. Jung, S. Diebels, Synthesis and Mechanical Properties of Novel Ni/PU Hybrid Foams: A New Economic Composite Material for Energy Absorbers, Advanced Engineering Materials, Volume 18, Issue 4: 532-541, (2016), 10.1002/adem.201500405.

  • A. Kruglova, G. Gaiselmann, O. Stenzel, V. Schmidt, M. Roland, S. Diebels and F. Mücklich, Connectivity of eutectic Si as a key property defining functionality of Al-Si alloys, Computational Material Science, Volume 120: 99-107, (2016).

  • T. Bleistein, A. Jung & S. Diebels, Thermo-mechanically coupled modelling of cellular MgO-C refractories under thermal shock, Proc. Appl. Math. Mech., 16:429-430, (2016), DOI: 10.1002/pamm.201610203.

  • T. Scheffer & S. Diebels, Comparison of two different modeling approaches to describe the non-linear viscoelastic behavior of filled rubber material, Proc. Appl. Math. Mech., 16:389-390, (2016), DOI: 10.1002/pamm.201610183.

  • C. Röhrig & S. Diebels, Characterization of short fiber reinforced polymers, Proc. Appl. Math. Mech., 16:387-388, (2016), DOI: 10.1002/pamm.201610182.

  • F. Scherff, F. Goldschmidt, S. Scholl & S. Diebels, High-resolution simulation of microstructures in dual-phase steel, Proc. Appl. Math. Mech., 16:391-392, (2016), DOI: 10.1002/pamm.201610184.

  • S. Heinze, A. Jung, S. Diebels & A. Düster, Experimental and numerical investigation of metal foams undergoing large deformations, Proc. Appl. Math. Mech., 16:345-346, (2016), DOI: 10.1002/pamm.201610161.

  • V. Dörlich, J. Linn, T. Scheffer & S. Diebels, Towards Viscoplastic Constitutive Models for Cosserat Rods, Archive of Mechanical Engineering, 63(2):215-230, (2016), ISSN (Online) 2300-1895, DOI: 10.1515/meceng-2016-0012.

  • K. Weißhaar, M. Weinmann, A. Jung, O. Weber & H. Natter, Replication of microstructured tools for electrochemical machining applications, International Journal of Advanced Manufacturing Technology, 82:197-200, (2016), DOI: 10.1007/s00170-015-7367-9.

  • A. Jung, Z. Chen, J. Schmauch, C. Motz & S. Diebels, Micromechanical characterisation of Ni/Al hybrid foams by nano- and microindentation coupled with EBSD, Acta Mater. 102, 38-48 (2016), DOI: 10.1016/j.actamat.2015.09.018.

2015

  • V. Dörlich, J. Linn, T. Scheffer & S. Diebels, Towards viscoplastic constitutive models for Cosserat rods, Proceedings ECCOMAS Thematic Conference on Multibody Dynamics. Barcelona, pages 479-490, (2015), ISBN: 978-84-944244-0-3.

  • B. J. Braun, N. T. Veith, R. Hell, S. Döbele, M. Roland, M. Rollmann, J. Holstein & T. Pohlemann, Validation and reliability testing of a new, fully integrated gait analysis insole, Journal of Foot and Ankle Research, 8:54 (2015), DOI 10.1186/s13047-015-0111-8.

  • A. Jung, M. Weinmann & H. Natter, Electroforming and electrodeposition on complex 3D geometries – special requirements and new methods, Book Chapter in  Handbook of Nanoelectrochemistry, , Editors: Mahmood Aliofkhazraei, Abdel Salam Hamdy Makhlouf, Springer-Verlag, ISBN: 978-3-319-15265-3 (2015).

  • T. Scheffer, F. Goldschmidt & S. Diebels, Implementation of the strongly pronounced non-linear viscoelasticity of an incompressible filled rubber, Technische Mechanik, 35(2):118-132, (2015).

  • Z. Chen, A. Jung, S. Heinze, A. Düster & S. Diebels, Experimental and numerical characterization of the mechanical properties of Ni/Al hybrid metal foams from the atomic to the microscale,Proc. Appl. Math. Mech. (PAMM) 15, 283 - 284, (2015).

  • A. Jung & S. Diebels, Thermo-mechanical modelling of cellular ceramic composites by a multiphase approach of porous media,  Proc. Appl. Math. Mech., 15:393-394, (2015), DOI: 10.1002/pamm.201510187.

  • M. Roland, T. Tjardes, T. Dahmen, R. Otchwemah, P. Slusallek, B. Bouillon & S. Diebels, An algorithmic strategy for the simulation of bone healing directly on computed tomography data, Proc. Appl. Math. Mech., 15:105-106, (2015), DOI: 10.1002/pamm.201510043.

  • T. Scheffer, F. Goldschmidt & S. Diebels, Characterisation of filled rubber with a pronounced non-linear viscoelasticity, Proc. Appl. Math. Mech., 15:353-354, (2015), DOI: 10.1002/pamm.201510167.

  • C. Röhrig & S. Diebels, Characterization of short fiber reinforced polymers, Proc. Appl. Math. Mech., 15:349-350, (2015), DOI: 10.1002/pamm.201510165.

  • F. Goldschmidt & S. Diebels, Modeling the moisture and temperature dependent material behavior of adhesive bonds, Proc. Appl. Math. Mech., 15:295-296, (2015), DOI: 10.1002/pamm.201510138.

  • V. Dörlich, S. Diebels, & J. Linn, Investigation of elastoplastic effects of cables under large spatial deformation,Proc. Appl. Math. Mech., 15:185-186, (2015), DOI: 10.1002/pamm.201510083.

  • S. Heinze, A. Jung, Z. Chen, S. Diebels, A. Düster, Numerical analysis of Ni/Al hybrid metal foams using the finite cell method, Proc. Appl. Math. Mech., 15:299-300, (2015), DOI: 10.1002/pamm.201510140.

  • A. Jung, N. Özgün, T. Würtz, D.J. Strauß, S. Seelecke & S. Diebels, A new method for non-destructive corrosion detection in inaccessible pipelines, J. Intell. Mater. Syst. Struct. (2015), submitted

  • S. Diebels, A. Jung, Z. Chen, H. Seibert & T. Scheffer, Experimentelle Mechanik: Von der Messung zum Materialmodell, GAMM Rundbrief, Heft 2, 10-16 (2015)

  • A. Jung, M. Wocker, Z. Chen & H. Seibert, Microtensile testing of open-cell metal foams - Experimental setup, micromechanical properties, Materials and Design, 88: 1021-1030 (2015), 0.1016/j.matdes.2015.09.091

  • T. Dahmen, M. Roland, T. Tjardes, B. Bouillon, P. Slusallek and S. Diebels. Adaptive mesh generation and hanging node concept for the biomechanical simulation of a tibia with implant using the finite element method, Computers and Mathematics with Applications, in review.

  • M. Roland, T. Tjardes, R. Otchwemah, B. Bouillon and S. Diebels. An optimization algorithm for individualized biomechanical analysis and simulation of tibia fractures. Journal of Biomechanics, Vol. 48, Issue 6:1119-1124,2015.

  • Z. Chen & S. Diebels, Indentation of PU at different scales and computational modeling: Identification of viscoelasticity and quantification of adhesion effects, Archive of Applied Mechanics, 85(9-10):1225-1243, (2015), DOI: 10.1007/s00419-015-1008-5.

  • A. Jung, Z. Chen, H. Seibert & S. Diebels, Multi-scale modelling of Ni/Al hybrid metal foams from atomic to micro scale, Proceedings 5th International Conference on Civil, Structural and Environmental Engineering ComputingCivil-Comp Press, Paper 145, p. 1-16 (2015)

  • A. Klavzar, M. Chiroli, A. Jung & B. Reck, Protective Performance of Hybrid Metal Foams as MMOD Shields, Procedia Eng. 103: 294-301, (2015).

  • A. Jung, M. Larcher, O. Jirousek, P. Koudelka & G. Solomos, Strain-rate Dependence for Ni/Al Hybrid Foams, Eur. Phys. J., 94: 04030 (2015), doi 10.1051/epjconf/20159404030.

  • A. Jung, S. Diebels, Thermo-mechanical properties of magnesia carbon foam composites, Coupled Problems - Proceedings of the 6th International Conference on Coupled Problems in Science and Engineering: 94-105, doi 10.1007/s00170-015-7367-9 (2015).

  • A. Jung, D. Klis & F. Goldschmidt, Experiments, modeling and simulation of the magnetic behavior of inhomogeneously coated nickel/aluminum hybrid foams, Journal of Magnetism and Magnetic Materials, 378:178-185, (2015).

  • A. Jung, L.A.A. Beex, S. Diebels & S.P.A. Bordas, Open-Cell Aluminium Foams with Graded Coatings as Passively Controllable Energy Absorber, Materials and Design, 87:36-41,  DOI: 10.1016/j.matdes.2015.07.165, (2015).

  • A. Jung, G. Falk, D. Petri & S. Diebels, Thermal shock resistivity of hybrid carbon foam materials: Experiments and model predictions, Mechanics of Materials, 82:13-27 (2015).

  • A. Jung, Z. Chen & S. Diebels, Nanoindentation of Ni/Al hybrid foams, Book Chapter in Applied Nanoindentation, Wiley - VCH, (2015), accepted.

  • A. Jung, S. Diebels & E. Lach, Improved mechanical properties by nanostructuring - special considerations under dynamic load conditions, Book Chapter in Handbook of Mechanical Nanostructuring, Editor: Mahmood Aliofkhazraei, Wiley - VCH, ISBN: 978-3-527-33506-0 (2015).

  • A. Jung, T. Grammes & S. Diebels, Micro structural motivated phenomenological modelling of metal foams -- experiments and modelling --,  Archive of Applied Mechanics, 85(8): 1147-1160, (2015).

  • M. Roland, A. Kruglova, G. Gaiselmann, O. Stenzel, V. Schmidt, F. Mücklich and S. Diebels, Numerical simulation and comparison of a real Al-Si alloy with virtually generated alloys, Archive of Applied Mechanics, 85: 1161-1171, (2015), DOI: 10.1007/s00419-014-0956-5.

  • F. Goldschmidt & S. Diebels, Modelling and numerical investigations of the mechanical behavior of polyurethane under the influence of moisture, Archive of Applied Mechanics, 85: 1035-1042, (2015), doi: 10.1007/s00419-014-0943-x

2014

  • T. Tjardes, M. Roland, R. Otchwemah, S. Diebels, T. Dahmen and B. Bouillon. Less than full circumferential fusion of a tibial nonunion is sufficient to achieve mechanically valid fusion - Proof of concept using a finite element modeling approach, BioMed Central Musculoskeletal Disorders, 15:434, 2014.

  • G. Falk, D. Petri, A. Jung & S. Diebels, Feuerfeste MgO-C Komposite mit zellularer Kohlenstoffstruktur, Teil 1: Experimentelle Charakterisierung, Keramische Zeitschrift, 4:221-225, (2014).

  • A. Jung, G. Falk, D. Petri & S. Diebels, Feuerfeste MgO-C Komposite mit zellularer Kohlenstoffstruktur, Teil 2: Mikrostrukturoptimierung durch thermo-mechanische Simulation, Keramische Zeitschrift, 5:293-300, (2014).

  • Z. Chen & S. Diebels, Indentation of PU at different scales and computational modeling: Identification of viscoelasticity and quantification of adhesion effects, Archive of Applied Mechanics, (2014), submitted.

  • Z. Chen & S. Diebels, Nanoindentation of Soft Polymers: Modeling, Experiments and Parameter Identification, Technische Mechanik, 34(3-4): 166-189 (2014).

  • F. Goldschmidt & S. Diebels, Modeling the moisture dependent material behavior of adhesive bonds close to the glass transition temperature, Proc. Appl. Math. Mech., 14:339-340 (2014).

  • S. Diebels, T. Grammes, F. Goldschmidt & A. Jung, A microscopically motivated continuum model for cellular material, Proc. Appl. Math. Mech., 14:421-422 (2014).

  • A. Jung & S. Diebels, Thermo-mechanical modelling of cellular hybrid refractories,  Proc. Appl. Math. Mech., 14:459-460 (2014).

  • T. Scheffer & S. Diebels, Material modelling of a filled rubber material with different approaches in the representation of a statical hysteresis, Proc. Appl. Math. Mech., 14:345-346 (2014).

  • S. Diebels & A. Geringer, Micromechanical and macromechanical modelling of foams: Identification of Cosserat parameters, ZAMM 94(5):414-420, 10.1002/zamm.201200271 (2014).

  • A. Jung, S. Diebels, A. Koblischka-Veneva, J. Schmauch, A. Barnoush & M.R. Koblischka, Microstructural analysis of electrochemical coated open-cell metal foams by EBSD and nanoindentation, Advanced Engineering Materials, 16(1):15-20, doi:10.1002/adem.201300187 (2014).

  • C. Helfen & S. Diebels, Computational homogenisation of composite plates: Consideration of the thickness change with a modified projection strategy, Computers and Mathematics with Applications, 67: 1116-1129, doi:10.1016/j.camwa.2013.12.017 (2014).

  • H. Seibert, T. Scheffer & S. Diebels, Biaxial testing of elastomers - Experimental setup, measurement and experimental optimisation of specimen’s shape, Technische Mechanik, 34(2): 72-89 (2014).

  • A. Jung, E. Lach & S. Diebels, New hybrid foam materials for impact protection, International Journal of Impact Engineering, 64: 30-38 (2014).

  • G. Falk, A. Jung, W. Da Silveira & S. Diebels, Experimental characterization and thermo-mechanical modelling of micro structure interactions in cellular carbon magnesia refractories, Journal of Ceramic Sience and Technology, 5(2):101-114, (2014).

  • A. Jung & S. Diebels, Hybrid metal foams: experimental observations and phenomenological modelling, Technische Mechanik, 34(1):12-22, (2014).

  • A. Geringer & S. Diebels, A Phase-Field Approach to Damage Modelling in Open-Cell Foams, Technische Mechanik, 34(1):3-11, (2014).

  • J. Wilmers & B. Lenhof: Comparison of Different FE-Approaches for Modelling of Short Fibre Composites, Technische Mechanik, 34(2):90-103, (2014).

  • M. Roland, A. Kruglova, N. Harste, F. Mücklich & S. Diebels, Numerical Simulation of Al-Si alloys with and without a directional solidification, Image Analysis and Stereology, 33(1):29-37, doi:10.5566/ias.v33.p29_37,  (2014).

2013

  • A. Hewer, J. Weickert, H. Seibert, T. Scheffer & S. Diebels, Lagrangian Strain Tensor Computation with higher order variational models, British Machine Vision Conference, 1:10 (2013).

  • Z. Chen & S. Diebels, Parameter Re-identification in Nanoindentation Problems of Viscoelastic Polymer Layers: Small Deformation, Zeitschrift für Angewandte Mathematik und Mechanik, 93:88-101, doi:10.1002/zamm.201100170 (2013).

  • Z. Chen, S. Diebels, N.J. Peter & A.S. Schneider, Identification of Finite Viscoelasticity and Adhesion Effects in Nanoindentation of a Soft Polymer by Inverse Method, Computational Materials Science, 72:127-139, doi:10.1016/j.commatsci.2013.01.040 (2013).

  • Z. Chen, T. Scheffer, H. Seibert & S. Diebels, Macroindentation of a Soft Polymer: Identification of Hyperelasticity and Validation by Uni/Biaxial Tensile Tests, Mechanics of Materials, Volume 64: 111-127, (2013), doi: 10.1016/j.mechmat.2013.05.003.

  • T. Scheffer, H. Seibert & S. Diebels, Optimisation of a pretreatment method to reach the basic elasticity of filled rubber materials, Archive of Applied Mechanics 83(11):1659-1678, doi 10.1007/s00419-013-0771-4 (2013).

  • A. Geringer, B. Lenhof & S. Diebels, Macroscopic modelling of foams: an Order-Parameter approach vs. a micropolar model, Technische Mechanik 33(2):87-96 (2013).

  • C. Helfen & S. Diebels, A Numerical Homogenisation Method for Sandwich Plates Based on a Plate Theory with Thickness Change, Zeitschrift für Angewandte Mathematik und Mechanik, 93:113-125, doi:10.1002/zamm.201100173 (2013).

  • J. Schmitt & S. Diebels, Simulation of the abrasive flow machining process, Zeitschrift für angewandte Mathematik und Mechanik, 93:147-153,  doi:10.1002/zamm.201200111 (2013).

  • R. Jänicke, H. G. Sehlhorst, A. Düster & S. Diebels, Micromorphic two-scale modelling of periodic grid structures, Int. J. Multiscale Computational Engineering, 11:161-176 doi: 10.1615/IntJMultCompEng.2012003279 (2013).

  • B. Lenhof, A. Geringer & S. Diebels, Macroscopic modelling of size effects in foams using an order-parameter approach, Generalized Continua as Models for Materials, Springer, 237-254 (2013).

2012

  • A. Jung, M. R. Koblischka, E. Lach, S. Diebels & H. Natter, Hybrid metal foams: Mechanical testing and determination of mass flow limitations during electroplating, Int. J. Mat. Sci., 2:97-107 (2012).

  • D.K. Trinh, R. Jänicke, N. Auffray, S. Diebels & S. Forest, Evaluation of generalized continuum substitution models for heterogeneous materials, Int. J. Multiscale Comput. Eng., 10(6):527-549, doi:10.1615/IntJMultCompEng.2012003105 (2012).

  • B. Ludwig, A. Geringer, B. Glasl, S. Diebels, J. Lisson & T. Lietz, DICOM-Daten als Basis für die FEM-Simulation zahnmedizinischer Fragestellungen - ein technischer Übersichtsartikel, Inf Orthod Kieferorthop, 44:23-29, doi:10.1055/s-0032-1306352 (2012).

  • B. Ludwig, A. Geringer, B. Glasl, S. Diebels, J. Lisson & T. Lietz, Die initiale Phase der Mesialisierung eines unteren Molaren in einem patientenbezogenen Finite-Elemente-Modell, Inf Orthod Kieferorthop, 44; 199-206, doi:10.1055/s-0032-1323751 (2012).

  • Z. Chen & S. Diebels, Modelling and parameters re-identification of nanoindentation of soft polymers taking into account effects of surface roughness, Computers and Mathematics with Applications 64:2775-2786, doi:10.1016/j.camwa.2012.04.010 (2012).

  • Z. Chen & S. Diebels, Surface Roughness Effects in Nanoindentation of Soft Polymers, Proc. Appl. Math. Mech., 12:297-298 (2012).

  • Z. Chen, S. Diebels, Nanoindentation of hyperelastic polymer layers at finite deformation and parameter re-identification, Archive of Applied Mechanics, 82(8):1041-1056 , DOI 10.1007/s00419-012-0613-9 (2012).

  • S. Diebels & A. Geringer. Modelling inhomogeneous mechanical properties in adhesive bonds, J. Adhesion, 88:924-940,  doi:10.1080/00218464.2012.725612 (2012).

  • C. Helfen & S. Diebels, Numerical multiscale modelling of sandwich plates,Technische Mechanik, 32:251-264 (2012).

  • M. Johlitz, S. Diebels & W. Possart, Investigation of the thermoviscoelastisc material behaviour of adhesive bonds close to the glass transition temperature, Arch. Appl. Mech, 82: 1089-1102, (2012), doi: 10.1007/s00419-012-0640-6.

  • N. Koprowski-Theiss, M. Johlitz & S. Diebels, Compressible rubber materials: experiments and simulations, Arch. Appl. Mech., 82:1117-1132, doi: 10.1007/s00419-012-0616-6 (2012).

  • N. Koprowski-Theiss, M. Johlitz & S. Diebels, Pressure dependent properties of a compressible polymer, Exp. Mech., 52:257-264, doi:10.1007/s00419-012-0616-6 (2012).

  • B. Lenhof & S. Diebels, A three-phase model for polymer curing including diffusive motion and agglomeration of inclusions, Proc. Appl. Math. Mech., 12:407-408 (2012).

  • J. Schmitt & S. Diebels, Zur Abtragssimulation beim Strömungsschleifen, Proc. Appl. Math. Mech., 12(1):301-302 (2012).

2011

  • N. Koprowski-Theiss, M. Johlitz  S. Diebels, Characterizing the time dependence of filled EPDM, Rubber Chemistry and Technology, 84(2):147-165, doi:10.5254/1.3570527 (2011).

  • N. Koprowski-Theiss, M. Johlitz  S. Diebels, Modelling of a cellular rubber with nonlinear viscosity functions, Exp. Mech., 51:749-765, doi:10.1007/s11340-010-9376-9 (2011).

  • A. Jung, H. Natter, S. Diebels, E. Lach  R. Hempelmann, Nano-nickel coated aluminium foam for enhanced impact energy absorption, Adv. Eng. Mater., 13:23-28, doi:10.1002/adem.201000190 (2011).

  • A. Jung, H. Natter, S. Diebels, E. Lach & R. Hempelmann, Nanocrystalline nickel/aluminium hybrid-foams for energy absorption and ballistic protection, Proceedings LWAG 2011 Aveiro Conference -- New design concepts in light-weight armour for vehicles, Aveiro, Portugal, (2011).

  • R. Clerigo, M. Paulino, F. Teixeira-Dias, A. Jung, R. Hempelmann & Diebels, S. Numerical modelling of the ballistic performance of open-cell aluminium hybrid-foam targets, Proceedings LWAG 2011 Aveiro Conference -- New design concepts in light-weight armour for vehicles, Aveiro, Portugal, (2011).

  • M. Johlitz  S. Diebels, Effective mechanical properties of filled polymers,  Mechanics of Advanced Materials and Structures, 18:106-114, doi:10.1080/15376494.2010.496064 (2011).

  • S. Diebels  D. Scharding, From lattice models to extended continua, In B. Markert (Hrsg.):Advances in Extended and Multifield Theories for Continua, Lecture Notes in Applied and Computational Mechanics, 59:19-45, doi:10.1007/978-3-642-22738-7_2 (2011).

  • M. Johlitz  S. Diebels, Characterisation of a polymer using biaxial tension test. Part I: Hyperelasticity, Arch. Appl. Mech., 81:1333-1349, doi:10.1007/s00419-010-0480-1 (2011).

  • C. Chambon, S. Diebels, FE² Modelling of Hybrid Sandwich Composites, Proc. Appl. Math. Mech., 11:505-506 (2011).

  • C. Helfen, S. Diebels, Numerical Multiscale Modelling of Sandwich Plates, Technische Mechanik, 32(2-5):251-264 (2011).

  • Z. Chen, S. Diebels, Numerical investigation of nanoindentation of viscoelastic polymer layers and parameters re-identification, PAMM · Proc. Appl. Math. Mech., 11:765-766, doi:10.1002/pamm.201110372 (2011).

  • Z. Chen, S. Diebels, J. Schmitt, Frictional nanoindentation of hyperelastic polymer layers: A numerical study, Proceedings of ECCOMAS 3rd thematic conference on the mechanical response of composites, 229-236, (2011).

2010

  • M. Johlitz, D. Scharding, S. Diebels, J. Retka  A. Lion, Modelling of thermoviscoelastic material behaviour of polyurethane close to the glass transition temperature, Z. Angew. Math. Mech.,  90:387-398, doi:10.1002/zamm.200900361 (2010).

  • A. Jung, H. Natter, R. Hempelmann, S. Diebels, M. R. Koblischka, U. Hartmann  E. Lach, Electrodeposition of nanocrystalline metals on open cell metal foams: improved mechanical properties, ECS Transactions, 25:165-172, doi:10.1149/1.3422510 (2010).

  • A. Jung, H. Natter, R. Hempelmann, S. Diebels, M. R. Koblischka, U. Hartmann, E. Lach, Study of the magnetic flux density distribution of nickel coated aluminium foams, J. Phys.: Conf. Series, 200(082011): 1-4, (2010), doi:10.1088/1742-6596/200/8/082011.

  • A. Jung, H. Natter, R. Hempelmann, S. Diebels  E: Lach, Improved mechanical properties of nano-nickel strengthened open cell metal foams, In Proceedings of the Annual Meeting of the Society for Experimental Mechanics, 1:340-344 (2010).

  • A. Jung, H. Natter, S. Diebels, E. Lach & R. Hempelmann, Improvement of the energy absorption capacity of open.cell aluminium foams by the electrodeposition of nanocrystalline metals, Proceedings Cellular Materials, Cellmat 2010, Dresden, Germany, 383-386 (2010).

  • C. Chambon, S.Diebels, Mechanical Modelling of Hybrid Sandwich Composites, Proceedings of the Tenth International Conference on Computational Structures Technology, B.H.V. Topping, J.M. Adam, F.J. Pallarés, R. Bru and M.L. Romero, (Editors), Civil-Comp Press, Stirlingshire, Scotland, paper 71, (2010).

  • R. Jänicke & S. Diebels, Requirements on Periodic Micromorphic Media, In G. A. Maugin and A. Metrikine, editors, Mechanics of Generalized Continua, 99-108 (2010).

  • R. Jänicke & S. Diebels. Numerical homogenisation of micromorphic media, Technische Mechanik, 30:364-373 (2009).

  • N. Koprowski, M. Johlitz, and S. Diebels, Cellular rubber: Dependency between relaxation time and pretreatment, Proc. Appl. Math. Mech., 9:353-354 (2009).

2009

  • H.-G. Sehlhorst, R. Jänicke, A. Düster, E. Rank, H. Steeb, and S. Diebels, Numerical investigations of foam-like materials by nested high-order finite element methods, Comp. Mech., 45(1):45-59, dvi:10.1007/s00161-009-0114-4 2009.

  • N. Koprowski, M. Johlitz, and S. Diebels, Experimental and theoretical investigations of the viscoelastic behaviour of cellular rubber, ECCMR, 2009.

  • R. Jänicke, H. G. Sehlhorst, and S. Diebels. A numerical homogenisation strategy for micromorphic continua, Proc. Appl. Math. Mech., 9(1):437-438, dvi:10.1393/ncc/i2009-10348-1 (2009).

  • R. Jänicke, S. Diebels, H. G. Sehlhorst, and A. Düster, Two-scale modelling of micromorphic continua. Continuum, Mech. Therm., 21(4):297-315, doi:10.1007/s00161-009-0114-4 (2009).

  • R. Jänicke and S. Diebels. A numerical homogenisation strategy for micromorphic continua, Nuovo Cimento Soc. Ital. Fis. C, 31(1):121-132, doi:10.1393/ncc/i2009-10348-1 (2009).

  • Z. Chen, H. Steeb, and S. Diebels, Generalized EVI-space-time Galerkin methods for dynamics at finite deformation in porous media, Comp. Mech., 43:585-601, doi:10.1007/s00466-008-0332-9(2009). 

2008

  • R. Wahl, M. Spies, and S. Diebels, Efficient absorbing boundary conditions for Biot's equations in time-harmonic finite element applications, J. Acoust. Soc. Am., 123:1347-1351, doi:10.1121/1.2832325 (2008).

  • N. Koprowski, M. Johlitz, and S. Diebels, Cellular rubber: Theoratical investigation on the basis of the mixture of theory and experiments, Proc. Appl. Math. Mech., 8:10437-10438, (2008).

  • M. Johlitz, S. Diebels, J. Batal, and W. Possart, Mechanical behaviour of adhesive joints: A new continuum mechanical description including interphase effects, In 8 th European Adhesion Conference, 3-5 September 2008, University of Oxford. (2008).

  • M. Johlitz, H. Steeb, R. Jänicke, and S. Diebels, Effective properties and size effects in filled polymers, GAMM-Mitteilungen, 31(2):210-224, (2008).

  • M. Johlitz, S. Diebels, J. Batal, H. Steeb, and W. Possart. Size effects in polyurethane bonds: Experiments, modelling and parameter identification. J. Mat. Sci., 43:4768-4779, 2008.

  • M. Johlitz, H. Steeb, S. Diebels, J. Batal, and W. Possart, Experimental and numerical investigation of size effects in polyurethane adhesive sealings, Technische Mechanik, 28(1):3-12, (2008).

  • R. Jänicke, H. G. Sehlhorst, H. Steeb, S. Diebels, A. Düster, and E. Rank, Investigations on an elastic micropolar continuum model for large deformations, Proc. Appl. Math. Mech., 8(1):10549-10550, (2008).

  • T. Ebinger, H. Steeb, and S. Diebels, Kinematically extended continuum theories: Correlation between microscopical deformation and macroscopical strain measures, Technische Mechanik, 28(2):64-86, (2008).

  • Z. Chen, H. Steeb, and S. Diebels, A space-time discontinuous Galerkin method applied to single-phase flow in porous media, Comp. Geosciences, 12:525-539, doi:10.1007/s10596-008-9092-z (2008).

  • Z. Chen, H. Steeb, and S. Diebels, A new hybrid velocity integration method applied to elastic wave propagation, Int. J. Numer. Meth. Eng., 74(1):56-79, doi: 10.1002/nme.2167 (2008).

2007

  • M. Johlitz, H. Steeb, S. Diebels, A. Chatzouridou, J. Batal, and W. Possart, Experimental and theoretical investigation of nonlinear viscoelastic polyurethane systems, J. Mat. Sci., 42:9894-9904, doi: 10.1007/s10853-006-1479-4 (2007).

  • M. Johlitz, S. Diebels, and H. Steeb, Cellular rubber: Theoratical investigation on the basis of the mixture of theory and experiments, Proc. Appl. Math. Mech., 7:4060013-4060014 (2007).

  • T. Ebinger, S. Diebels, and H. Steeb, Numerical homogenization techniques applied to growth and remodelling phenomena, Comp. Mech., 39(6):815-830, doi:10.1007/s00466-006-0071-8 (2007).

  • Z. Chen, H. Steeb, and S. Diebels, Waves in fully saturated porous media investivated by adaptive space-time finite element method, In K. Runesson and P. Dìez, editors, Adaptive modeling and simulation, Proceedings of III International conference on adaptive modeling and simulation, pages 69-72. CIMNE, Barcelona, Spain, (2007).

  • Z. Chen, H. Steeb, and S. Diebels, Space-time Galerkin method for coupled problems in porous media, In Proceedings of coupled problems, pages 291-295. CIMNE, Barcelona, Spain (2007).

  • Z. Chen, H. Steeb, and S. Diebels, Dynamic analysis of porous materials: Numerical modeling with a space-time FEM, Proc. Appl. Math. Mech., 7:4070011-4070012 (2007).

  • S. Diebels, M. Johlitz, H. Steeb, A. Chatzouridou, J. Batal & W. Possart: A continuum-based model capturing size effects in polymer bonds, Journal of Physics: Conference Series, 62(1):34-42 (2007).

2006

  • T. Ebinger, H. Steeb  S. Diebels, Remodeling of spongy bones: A multi-scale finite element model capturing size effects, Material Science and Engineering A, (2005), submitted.

  • T. Ebinger, S. Diebels  H. Steeb, Numerical homogenization techniques applied to growth and remodelling phenomena, Comp. Mech.  39(6):815-830, doi: 10.1007/s00466-006-0071-8 (2006).

  • R. Larsson and S. Diebels. A second order homogenization procedure for multi-scale analysis based on micropolar kinematics, Int. J. Numer. Meth. Eng., 69:2485-2512, doi:10.1002/nme.1854 (2006).

  • M. Johlitz, H. Steeb, and S. Diebels, Size effects due to the formation of interphases in polymer joints, Proc. Appl. Math. Mech., 6:447-448 (2006).

  • Z. Chen, H. Steeb, and S. Diebels, Analysis of wave propagation in the fluid-saturated porous media, Proc. Appl. Math. Mech., 6:429-430 (2006).

  • Z. Chen, H. Steeb, and S. Diebels, A time-discontinuous Galerkin method for the dynamical analysis of porous media, Int. J. Numer. Anal. Meth. Geomech., 30:1113-1134, doi:10.1002/nag.5162006 (2006).

  • A. Chatzouridou, T. Ebinger, and S. Diebels, From microscopic to macroscopic modelling of cellular materials, Proc. Appl. Math. Mech., 6:471-472 (2006).

2005

  • S. Diebels, nuum models for cellular materials, In Proceedings of 11th International Symposium on Fracture, (ICF-11), Turin, Italy, page 837 (2005).

  • H. Steeb, M. Johlitz, and S. Diebels, Size effects in thin polymer films: Theoretical and experimental investigation, In EUROMECH Colloquium 463. Groningen, The Netherlands (2005).

  • H. Steeb, S. Diebels, and I. Vardoulakis, A multiphase continuum-based model capturing erosion and deposition, In K. Hutter and Y. Wang, editors, Trends in Applications of
    Mathematics to Mechanics, pages 519-528. Shaker, Aachen (2005).

  • H. Steeb and S. Diebels, Continua with affine microstructure: Theoretical aspects and application, Proc. Appl. Math. Mech., 5:319-320 (2005).

  • H. Steeb, T. Ebinger, and S. Diebels, Microscopically motivated model describing growth and remodeling of spongy bones, In W. Ehlers and B. Markert, editors, Proceedings of '1st
    GAMM Symposium on Continuum Biomechanics', 24th - 26nd November 2004, Freudenstadt-Lauterbad, pages 151-160. Glückauf, Essen (2005).

  • H. Steeb, S. Diebels, and I. Vardoulakis, Sand production: A microscopically motivated multi-phase model, In Proceedings of Powder & Grains 2005, 18th - 22nd July 2005, University of Stuttgart, pages 723-726. Balkema - Taylor & Francis, Leiden, The Netherlands, (2005).

  • H. Steeb, S. Diebels, and I. Vardoulakis, Modelling erosive processes in the framework of the theory of porous media, In J. Grabe, editor, Tagungsband des Symposiums 'Grenzschicht Wasser und Boden, Phänomene und Ansätze', 9. März 2005, pages 189-197. TU Hamburg-Harburg (2005).

  • J. Schmitt and S. Diebels, Experimentelle Untersuchung zum anisotropen Verhalten eines Polypropylen-Schaums, Proc. Appl. Math. Mech., 5:517-518, doi:  10.1002/pamm.200510235, (2005).

  • M. Johlitz, H. Steeb, and S. Diebels, Modelling of thin polymer films, Proc. Appl. Math. Mech., 5:417-418, doi: 10.1002/pamm.200510185, (2005).

  • T. Ebinger, H. Steeb, and S. Diebels, Modeling macroscopic extended continua with the aid of numerical homogenization schemes, Comp. Mat. Science, 32:337-347,  doi: 10.1016/j.commatsci.2004.09.034, (2005).

  • T. Ebinger, H. Steeb, and S. Diebels, Modeling and homogenization of foams, Comp. Assisted Mechanics and Engineering Sciences, 12:49-63, (2005).

  • T. Ebinger, H. Steeb, S. Diebels, and W. Ripplinger und T. Tjardes, A biomechanical model based on a FE² approach using results from computer tomography, VIII International Conference on Computational Placticty, CIMNE, Barcelona, pages 127-130, (2005).

  • T. Ebinger, H.Steeb, and S. Diebels, Anisotropic damage for higher order continuum models, Proc. Appl. Math. Mech., 5 Issue 1:331-332, doi: 10.1002/pamm.200510142, (2005).

  • T. Ebinger, H. Steeb, and S. Diebels, Anisotropic damage of higher order continuum models for cellular materials, In Proceedings of 11th International Symposium on Fracture, (ICF-11), Turin, Italy, page 837. (2005).

  • A. Düster, E. Rank, S. Diebels, T. Ebinger, and H. Steeb, Second order homogenization method based on higher order finite elements, Proc. Appl. Math. Mech., 5:391-392, doi: 10.1002/pamm.200510172, (2005).

  • S. Diebels, H. Steeb, and W. Possart, Effect of the interphase on the mechanical behaviour of thin adhesive films - a modelling approach, In W. Possart, editor, Adhesion - Current Research and Applications, pages 319-335. John Wiley & Sons, Chichester, (2005).

  • S. Diebels, H. Steeb, M. Johlitz, W. Possart, and J. Batal, Size effects due to the formation of interphase in polymer joints: A modelling approach, In Proceddings of Adhesion `05, Ninth International Conference on the Science and Technology of Adhesion and Adhesives, 7-9 September 2005, University of Oxford, pages 184-187. IOM Communications Ltd, London, UK, (2005).

  • S. Diebels, T. Ebinger, H. Steeb, A. Düster, and E. Rank, Modeling materials with lattice microstructure by an higher order FE2 approach, In E. Oñate M. Papadrakakis and B. Schrefler, editors, CDROM-Proceedings of ECOMMAS Thematic Conference on Computational Methods for Coupled Problems in Science and Engineering paper P106, Santorini, Greece. CIMNE, Barcelona, doi: 10.1002/pamm.200510172, (2005).

  • S. Diebels, T. Ebinger, and H. Steeb, An anisotropic damage model of foams on the basis of a micromechanical description, J. Mat. Sci., 161:5919-5924, (2005).

  • Z. Chen, H. Steeb, and S. Diebels, Raum-Zeit-Finite-Elemente in der Theorie Poröser Medien, Zwischenbericht zum DFG-Einzelverfahren (DI 430/4-1), Bericht Nr. 12, Lehrstuhl für Technische Mechanik, Universität des Saarlandes, (2005).

  • Z. Chen, H. Steeb, and S. Diebels, Space-time DG method for porous media, Proc. Appl. Math. Mech., 5:385-386, doi: 10.1002/pamm.200510169, (2005).

  • Z. Chen, H. Steeb, and S. Diebels, A discontinuous Galerkin method for the dynamic analysis of fully-saturated porous media, In D. R. J. Owen, E. O nate, and B. Suárez, editors, Proceedings of COMPLASS 05, pages 101-104. CIMNE, Barcelona, Spain, doi: 10.1002/nag.516, (2005).

  • A. Chatzouridou and S. Diebels, Identification of material parameters in extended continuum mechanical models, Proc. Appl. Math. Mech., 5:495-496, (2005).

2004

  • H. Steeb, S. Diebels, and I. Vardoulakis, Theory and numerics of erosion processes in fluid-saturated porous media, In P. A. Vermeer et al., editor, Continuous and discontinuous modelling of cohesive frictional materials, pages 307-319, Balkema, Rotterdam, (2004).

  • H. Steeb and S. Diebels, Modeling thin films applying an extended continuum theory based on a scalar-valued order parameter - Part I: Isothermal case, Int. J. Solids Structures, 41:5071-5085, doi: 10.1016/j.ijsolstr.2004.03.013, (2004).

  • T. Ebinger, H. Steeb, and S. Diebels, Higher order continuum models for cellular materials including damage, Proc. Appl. Math. Mech., 4:276-277, doi: 10.1002/pamm.200410119, (2004).

  • S. Diebels, H. Steeb, and W. Possart, Soft boundary layers in polymeric films, Proc. Appl. Math. Mech., 4:248-249, doi: 10.1002/pamm.200410105, (2004).

  • S. Diebels, H. Steeb, and W. Possart, Effect of the interphase on the mechanical behaviour of thin adhesive films - a modeling approach, In Proceddings of 7th European Conference of Adhesion (EURADH 2004), September 5-9, 2004, Freiburg, Germany, volume 2, pages 93-98. Dechema e.V., (2004).

  • G. A. d'Addetta, E. Ramm, S. Diebels, and W. Ehlers, A particle center based homogenization strategy for granular assemblies, Eng. Comp., 21:360-383, doi: 10.1108/02644400410519839, (2004).

2003

  • H. Steeb, S. Diebels, and W. Ehlers, Galerkin-type space-time finite elements for volumetrically coupled problems, Proc. Appl. Math. Mech., 2:264-265, doi: 10.1002/pamm.200310117, (2003).

  • H. Steeb and S. Diebels, A thermodynamic-consistent model describing growth and remodeling phenomena, Comp. Mat. Science, 28:597-607, doi: 10.1016/j.commatsci.2003.08.016, (2003).

  • H. Steeb and S. Diebels, A macroscopic erosion model, Proc. Appl. Math. Mech., 3:218-219, doi: 10.1002/pamm.200310383, (2003).

  • M. Schanz and S. Diebels, A comperative study of Biot's theory and the linear Theory of Porous Media for wave propagation problems, Acta Mech., 161:213-235, (2003).

  • W. Ehlers, S. Diebels, and H. Steeb, Zeit- und ortsadaptive Verfahren zur Behandlung volumetrisch gekoppelter Mehrphasenprobleme, In Zwischenbericht zum gleichnamigen Forschungsvorhaben, Teilprojekt A6 des SFB 404. Bericht aus dem Institut für Mechanik (Bauwesen), Nr.03-II-10, (2003).

  • W. Ehlers, B. Markert, S. Diebels, and A. Nödling, Permeability studies of soft opencell foams, Proc. Appl. Math. Mech., 2:162-163, doi: 10.1002/pamm.200310066, (2003).

  • W. Ehlers, E. Ramm, S. Diebels, and G. A. D'Addetta, From particle ensembles to Cosserat continua: Homogenization of contact forces towards stresses and couple stresses, Int. J. Solids Structures, 40:6681-6702, doi: 10.1016/S0020-7683(03)00418-9, (2003).

  • T. Ebinger, H. Steeb, and S. Diebels, Modeling and homogenization of foams, In Proceedings of the 9th International Conference on Numerical Methods in Continuum Mechanics, Žilina, Slovak Republic, pages 35-36, (2003).

  • S. Diebels, H. Steeb, and W. Ehlers, Microscopic and macroscopic modelling of foams, Proc. Appl. Math. Mech., 2:156-157, doi: 10.1002/pamm.200310063, (2003).

  • S. Diebels, H. Steeb, and T. Ebinger, Volume and surface based homogenization procedures for Cosserat continua, Proc. Appl. Math. Mech., 3:266-267, doi: 10.1002/pamm.200310405, (2003).

  • S. Diebels and H. Steeb, Stress and couple stress in foams, Comp. Mat. Science, 28:714-722, doi: 10.1016/j.commatsci.2003.08.025, (2003).

2002

  • C. Wieners, M. Ammann, S. Diebels, and W. Ehlers. Parallel 3-D simulations for porous media models in soil mechanics. Comp. Mech., 29:75-87, 2002.

  • W. Ehlers, S. Diebels, and P. Blome, Modelling of partially saturated soils by the Theory of Porous Media, In T. Schanz, editor, 3. Workshop Weimar 2001: Teilgesättigte Böden, volume Heft 6, pages 91-112. Schriftenreihe Geotechnik, Bauhaus-Universität Weimar, (2002).

  • W. Ehlers, M. Ammann, and S. Diebels, H-adaptive FE methods applied to single- and multiphase problems, Int. J. Numer. Meth. Eng., 54:219-239, doi: 10.1002/nme.422, (2002).

  • S. Diebels, H. Steeb, T. Ebinger, and W. Ehlers, Modelling and homogenization of foams, In DYNAMore, editor, LS- DYNA Forum 2002, CD-ROM Proceedings V37. DYNAMore GmbH, Stuttgart, (2002).

  • S. Diebels and H. Steeb, The size effect in foams and its theoretical and numerical investigation, Proc. R. Soc. Lond. A, 458:2869-2883, doi: 10.1098/rspa.2002.0991, (2002).

  • S. Diebels, Micropolar mixture models on the basis of the theory of porous media, In W. Ehlers and J. Bluhm, editors, Porous Media: Theory, Experiments and Numerical Applications, pages 121-145. Springer-Verlag, Berlin, doi: 10.1098/rspa.2002.0991, (2002).

  • G. A. d'Addetta, E. Ramm, S. Diebels, and W. Ehlers, Homogenization for particles assemblies, In Proceedings of the 3rd International Conference on Discrete Element Methods, Santa Fe, New Mexico, pages 259-264. ASCE Geotechnical Special Publication, No. 117, (2002).

2001

  • W. Volk, S. Diebels, M. Lätzel, and S. Luding, Analogiebetrachtungen für mikropolare Kontinua mit Anwendung auf den Biaxialversuch, In S. Diebels, editor, Zur Beschreibung komplexen Materialverhaltens: Beiträge anlässlich des 50. Geburtstags von Herrn Prof. Dr.-Ing. Wolfgang Ehlers, pages 189-206. Institut für Mechanik (Bauwesen) Nr. 01-II-7, Universität Stuttgart, (2001).

  • H. Steeb and S. Diebels, Residual based error estimation techniques for porous media, In S. Diebels, editor, Zur Beschreibung komplexen Materialverhaltens: Beiträge anläßlich des 50. Geburtstags von Prof. Dr.-Ing. Wolfgang Ehlers, pages 9-13. Bericht Nr. II.7, Institut für Mechanik (Bauwesen), Lehrstuhl II, Universität Stuttgart, (2001).

  • H. Steeb, S. Diebels, and W. Ehlers, Fehlabschätzungen mit Galerkin-Methoden für gewöhnliche Differentialgleichungen, In SFB 404, Bericht 2002/14, Proceedings des SFB 404 Statusseminars 2001. Blaubeuren, Germany, (2001).

  • S. Luding, M. Lätzel, W. Volk, S. Diebels, and H. J. Herrmann, From discrete element simulations to a continuum model, Comp. Meth. Appl. Mech. Eng., 191:21-28, doi: 10.1016/S0045-7825(01)00242-0, (2001).

  • P. Ellsiepen and S. Diebels, Error-controlled Runge-Kutta time integration in elastoplasticity and viscoplasticity, In S. Diebels, editor, Zur Beschreibung komplexen Materialverhaltens: Beiträge anläßlich des 50. Geburtstags von Herrn Prof. Dr.-Ing. Wolfgang Ehlers, pages 189-206, Institut für Mechanik (Bauwesen) Nr. 01-II-7, Universität Stuttgart, (2001).

  • W. Ehlers, S. Diebels, and T. Michelitsch, Microscopic modeling of granular materials taking into account particle rotations, In P. A. Vermeer et al., editor, Continuous and discontinuous Modelling of Cohesive Frictional Materials, pages 259-274, Springer Verlag, Berlin, (2001).

  • W. Ehlers, S. Diebels, and T. Michelitsch, Microscopic investigation of Cosserat continua, Z. Angew. Math. Mech., 81:335-336, (2001).

  • W. Ehlers, S. Diebels, and M. Ammann, Gemischt-hybride Finite Elemente für mikropolare Kontinua, Z. Angew. Math. Mech., 81:387-388, (2001).

  • W. Ehlers, S. Diebels, P. Ellsiepen, and W. Volk, Localization phenomena in liquid-saturated soils, In Proceedings of NAFEMS World Congress 97 on Design, Simulation and Optimisation, Reliability and Application of Computational Methods Vol. 1, pages 287-298, Bell and Bain, Glasgow, (2001).

  • S. Diebels, W. Ehlers, and T. Michelitsch, From discontinuous to continuous modelling of granular materials, In N. Bicanic, editor, Proceedings of the Int. Conf. on Analysis of Discontinuous Deformation (ICADD)-4, pages 251-260, University of Glasgow, Scotland, UK, (2001).

  • S. Diebels and W. Ehlers, Homogenization method for granular assemblies, In W. A. Wall, K. U. Bletzinger, and K. Schweizerhof, editors, Proceedings of 'Trends in Computational Structural Mechanics', pages 79-88, CIMNE, Barcelona, Spain, (2001).

  • S. Diebels, W. Ehlers, and T. Michelitsch, Particle simulation as a microscopic approach to a Cosserat continuum, J. Phys. IV, 11(Pr5):203-210, (2001).

  • S. Diebels, Erweiterte Kontinuumstheorien zur Modellierung poröser Materialien, In W. Ehlers and S. Diebels, editors, Poröse Medien 2001, CD-ROM Proceedings des Workshops Poröse Medien 2001, Beitrag P01. Institut für Mechanik (Bauwesen) Nr. 01-II-10, Universität Stuttgart, (2001).

  • S. Diebels, W. Ehlers, and B. Markert, Neglect of the fluid-extra stresses in volumetrically coupled solid-fluid problems, Z. Angew. Math. Mech., 81:S521-S522, doi: 10.1002/zamm.20010811540, (2001).

  • S. Diebels, Evolution of the volume fractions in compressible porous media, In W. Ehlers, editor, IUTAM Symposium on Numerical and Theoretical Methods in Continuum Mechanics of Porous Materials, pages 21-26, Kluwer Academic Publishers, Dordrecht, (2001).

2000

  • W. Ehlers, S. Diebels, and T. Michelitsch. Mikro-Makro Strategien bei der Beschreibung granularer Reibungsmaterialien. In Bericht zum Teilprojekt I der Forschergruppe Modellierung kohäsiver Reibungsmaterialien. Institut für Mechanik (Bauwesen) Nr. 01-II-12, Universität Stuttgart, 2000.

  • W. Ehlers, S. Diebels, and M. Ammann. Stoffverhalten und Lokalisierung in der Theorie poröser Medien. In Bericht zum Teilprojekt A6 des SFB 404- Mehrfeldprobleme in der Kontinuumsmechanik. Institut für Mechanik (Bauwesen) Nr. 00-II-4, Universität Stuttgart, 2000.

  • S. Diebels. Mikropolare Zweiphasenmodelle: Modellierung auf der Basis der Theorie Poröser Medien. Habilitationsschrift, Institut für Mechanik (Bauwesen), Nr. II-4, Universität Stuttgart, 2000.

  • S. Diebels. On the influence of the matrix compressibility in two-phase models. Z. Angew. Math. Mech., 80:S137-S140, 2000.

  • S. Diebels. A macroscopic description of the quasi-static behaviour of granular materials based on the theory of porous media. Granul. Matter, 2:142-152, 2000.

1999

  • S. Diebels, P. Ellsiepen, and W. Ehlers. Error-controlled Runge-Kutta time integration of a viscoplastic hybrid two-phase model. Technische Mechanik, 19:19-29, 1999.

  • S. Diebels. Ein mikropolares Materialgesetz für poröse Festkörper. Z. Angew. Math. Mech., 79:S533-S534, 1999.

  • S. Diebels. A micropolar theory of porous media: Constitutive modelling. Transport Porous Med., 34:193-208, 1999.

1998

  • W. Ehlers, S. Diebels, and W. Volk. Deformation and compatibility for elasto-plastic micropolar materials with applications to geomechanical problems. J. Phys. IV France, 8:127-134, 1998.

  • W. Ehlers, S. Diebels, and W. Volk. Die Bedeutung der Kompatibilitätsbedingung für mikropolare, elastisch-plastische Reibungsmaterialien. In O. T. Bruhns (Hrsg.), Große Plastische Formänderungen, Mitteilungen aus dem Institut für Mechanik Nr. 114, Ruhr-Universität Bochum, 114:23-26, 1998.

  • S. Diebels, P. Ellsiepen, and W. Ehlers. A two-phase model for viscoplastic geomaterials. In D. Besdo and R. Bogacz, editors, Dynamics of Continua, pages 103-112. Shaker Verlag, Aachen, 1998.

  • S. Diebels. Constitutive modelling of micorpolar porous media. In J. F. Thimus et al., editor, Poromechanics - A Tribute to Maurice A. Biot, pages 71-76. A. A. Balkema, Rotterdam, 1998.

  • S. Diebels, P. Ellsiepen, and W. Ehlers. Zeitintegration viskoplastischer Zweiphasenmodelle. In O. T. Bruhns, editor, Große plastische Formänderungen, pages 145-148. Mitteilungen aus dem Institut für Mechanik Nr. 114, Ruhr-Universität Bochum, 1998.

  • S. Diebels, W. Ehlers, P. Ellsiepen, and W. Volk. On the regularization of shear band phenomena in liquid-saturated and empty soils. In A. Brillard and J. F. Ganghoffer, editors, Proceedings of the EUROMECH Colloquium 378, pages 58-63. University of Mulhouse - CNRS, Mulhouse, 1998.

  • S. Diebels. Materialtheorie für granulare Materialien. Z. Angew. Math. Mech., 78:S349-S350, 1998.

1997

  • W. Ehlers, S. Diebels, and D. Mahnkopf. Theoretical and numerical aspects of elasto-plastic porous media models. In R. Helmig et al., editor, Modelling and Computation in Environmental Sciences, Notes on Numerical Fluid Mechanics 59, pages 121-132. Vieweg Verlag, Braunschweig, 1997.

  • S. Diebels. Grundgleichungen für Mischungen mit mikropolaren Konstituierenden. Z. Angew. Math. Mech., 77:73-74, 1997. 

1996

  • S. Maurer, K. Hutter, and S. Diebels. Viscous effects in internal waves of two-layered fluids with variable depth. Eur. J. Mech B/fluids, 15:445-470, 1996.

  • W. Ehlers, S. Diebels, D. Mahnkopf, and P. Ellsiepen. Theoretische und numerische Studien zur Lösung von Rand- und Anfangswertproblemen in der Theorie poröser Medien, Forschungsbericht zum DFG-Projekt Eh 107/6-1. In Bericht aus dem Institut für Mechanik (Bauwesen) Nr. 96-II-1. Universität Stuttgart, 1996.

  • S. Diebels, W. Ehlers, D. Mahnkopf, and W. Volk. Elastoplastische Stoffverhalten beim Konsolidationsproblem. Z. Angew. Math. Mech., 76:119-120, 1996.

  • S. Diebels and W. Ehlers. On basic equations of multiphase micropolar materials. Technische Mechanik, 16:77-78, 1996.

  • S. Diebels and W. Ehlers. Dynamic analysis of a fully saturated porous medium accounting for geometrical and material non-linearities. Int. J. Numer. Meth. Eng., 39:81-97, 1996.

  • S. Diebels & W. Ehlers. On fundamental concepts of multiphase micropolar materials. Technische Mechanik, 16(1):77-88, 1996.

1995

  • W. Ehlers, S. Diebels, and D. Mahnkopf. Theorie und Numerik der elastisch-plastischen Konsolidation. In H. Ulbirch, editor, Festschrift zum 70. Geburtstag von Herrn Prof. Dr.-Ing. Julius Siekmann, pages 263-274. Universität-GH Essen, 1995.

  • W. Ehlers, S. Diebels, and W. Volk. Ein elastisch-plastisches Materialmodell für flüssigkeitsgesättigte poröse Festkörper unter Einbeziehung der Mikrorotation. In W. Walther, editor, Beiträge zur Mechanik (Festschrift zum 60. Geburtstag von Prof.Dr.-Ing. Reint de Boer, Forschungsbericht aus dem Fachbereich Bauwesen 66, pages 67-82. Universität- GH Essen, 1995.

  • W. Ehlers, S. Diebels, and D. Mahnkopf. Elasto-plastic consolidation of fluid-saturated soils. In E. Oñate D. R. J Owen and E. Hinton, editors, Computational Plasticity, Vol.2, pages 1689-1700. Pineridge Press, Swansea, 1995.

  • W. Ehlers, S. Diebels, and D. Mahnkopf. Elasto-plastic consolidation problems: Theoretical and computational aspects. In S. Tanimura and A. S. Khan, editors, Dynamic Plasticity and Structural Behaviors, pages 519-522. Gordon and Breach, Luxembourg, 1995.

  • W. Ehlers and S. Diebels. Dynamic deformations in the theory of fluid-saturated porous solid materials. In D. F. Parker and A. H. England, editors, Proc. of IUTAM Symp.: Anisotropy, Inhomogeneity and Nonlinearity in Solid Mechanics, pages 241-246. Kluwer Academic Publishers, Dordrecht, 1995.

  • S. Diebels. Numerical study of barotropic and baroclinic behavior of a nonlinear two-layer model. J. Comp. Phys., 117:114-120, 1995.

  • S. Diebels and W. Ehlers. Dynamik poröser Medien. Z. Angew. Math. Mech., 75:151-152, 1995. 

1994

  • S. Diebels and W. Ehlers. Ein numerisches Modell zur Behandlung elastisch-plastischer Konsolidationsvorgänge. In O. T. Bruhns, editor, Große Plastische Formänderungen, Mitteilungen aus dem Institut für Mechanik, pages 167-170. Ruhr-Universität Bochum Nr. 93, 1994.

  • S. Diebels and K. Hutter. Nichtlineare Wellen in Kanälen. Z. Angew. Math. Mech., 74:T434-T435, 1994.

  • S. Diebels, B. Schuster, and K. Hutter. Nonlinear internal waves over variable topography. Geophys. Astrophys. Fluid Dynamics, 76:165-192, 1994.

  • A. Beckmann and S. Diebels. Effects of the horizontal component of the earth's rotation on wave propagation on an f-plane. Geophys. Astrophys. Fluid Dynamics, 76:95-119, 1994.

  • G. Bauer, S. Diebels, and K. Hutter. Nonlinear internal waves in ideal rotating basins. Geophys. Astrophys. Fluid Dynamics, 78:21-46, 1994.

1992

  • S. Diebels. Interne Wellen: Ein Modell, das Nichtlinearität, Dispersion, Corioliseffekte und variable Topographie berücksichtigt. Dissertation, Technische Hochschule Darmstadt, 1992.