Prof. Dr.-Ing. habil. Dr. h.c. mult. Holm Altenbach is a member of the International Research Center on Mathematics and Mechanics of Complex Systems (M&MoCS), Italy, and International Association of Applied Mathematics and Mechanics (GAMM). In 1996, he was appointed as a Full Professor (Engineering Mechanics) at the Martin Luther University Halle-Wittenberg, and since 2011, he has been a Full Professor at the Otto-von-Guericke-University Magdeburg. He graduated from Leningrad Polytechnic Institute in 1980 (diploma with a distinction), and defended his Ph.D. and obtained his postgraduate degree (habilitation) from the same university in 1983 and 1987, respectively.

His areas of scientific interest include:

-          Theory of plates and shells with applications

-          Continuum mechanics and material modeling

-          Generalized media

-          Sandwiches and laminates

He is an Editor-in-Chief of the Journal of Applied Mathematics and Mechanics/Zeitschrift für Angewandte Mathematik und Mechanik (the oldest journal in mechanics in Germany) and of Springer's Advanced Structured Materials series. He is a member of the editorial board of the following journals: Continuum Mechanics and Thermodynamics, Technische Mechanik, Mechanics of Composite Materials, and Journal of Strain Analysis for Engineering Design.

He was awarded the Polish Humboldt Prize in 2018.

 

Prof. Dr.-Ing. habil. Michael Brünig is a member of the International Association of Applied Mathematics and Mechanics (GAMM) and the German Association of Computational Mechanics (GACM). In 2010, he was appointed as a Full Professor at the Bundeswehr University Munich. He graduated from the University of Hannover in 1985, defended his doctoral degree at Ruhr-University Bochum in 1989, and obtained his postgraduate degree (habilitation) from the University of Technology Dortmund in 1988.

His areas of scientific interest include:

-          Continuum mechanics and material modeling

-          Finite element analysis

-          Experiments on damage and fracture behavior

He is a member of the editorial board of the following journals: International Journal of Plasticity, International Journal of Damage Mechanics, Latin American Journal of Solids and Structures, Open Mechanics Journal, Open Mechanical Engineering Journal, Recent Patents on Mechanical Engineering (Regional Editor), ISRN Applied Mathematics, Chinese Journal of Engineering.

 

Prof. Dr.-Ing. habil. Zbigniew Kowalewski graduated from the Faculty of Mechanics, Warsaw University of Technology (1981). He received his Ph.D. and postgraduate degree (habilitation) from the Institute of Fundamental Technological Research of the Polish Academy of Sciences in 1988 and 1997, respectively. In 2008, Professor Zbigniew Kowalewski was nominated as a Full Professor of Mechanical Engineering by the President of Poland. He was the British Council Fellow at the University of Manchester from 1992 to 1993. Professor Zbigniew Kowalewski was appointed to the Institute of Fundamental Technological Research of the Polish Academy of Sciences in 1985 and worked at Warsaw University of Technology from 1997 to 2010. From 2010 to 2011, he was a Deputy Director of the Institute of Fundamental Technological Research. Since 2011, he has been the Head of the Department of Experimental Mechanics at the Institute of Fundamental Technological Research. From 2015, he has been the President of the Polish Society of Theoretical and Applied Mechanics and from 2016 vice-president of the EuraSEM. He has over 35 years of research experience, mainly in the areas of plasticity, creep, fatigue, experimental methods in solid mechanics, and modeling of creep constitutive equations.

He is a member of the editorial board of the following journals: Journal of Theoretical and Applied Mechanics, Engineering Transactions, Archives of Mechanical Engineering, and International Journal of Lightweight Materials.

1. Altenbach, Holm et al.

Interphase damage in random particulate composite

2. Sun, Dong-Zhi et al. Modeling of deformation and failure behavior of long fiber reinforced thermoplastics

taking fiber orientation into account

3. Kaliske, Michael et al. Numerical approximation of dynamic ductile fracture in strain-hardening cement-based composite (SHCC) by a phase-field method

4. Aizikovich, Sergei M. et al. Indentation of an elastic half-plane with a functionally graded coating by a rigid punch in the presence of tangential stresses

5. Brünig, Michael et al. Experiments on damage and fracture mechanisms in ductile metals under

non-proportional loading paths

6. Yoon, Jeong Whan Optimization of shear specimen to minimise triaxiality variation in ductile fracture

characterization

7. Silberschmidt, Vadim V. et al.

Damage and fracture of fibrous networks

8. Kirchheim, Reiner

Chemomechanics in the context of plasticity and fracture

9. Kari, Leif A novel modeling approach to physical ageing of reinforcing carbon-black filled

elastomers

10. Hernik, Szymon et al. Effective elasto-plastic properties of composite materials based on total energy

Equivalence

11. Klüppel, Manfred et al. Evaluation of strain-induced crystallization of elastomers based on thermography and mechanical measurements

12. Simon, Jan-Willem et al. Modeling the anisotropic in-plane and out-of-plane elastic-plastic response of paper

13. Ecke, Martin et al.

Molecular dynamic simulation and experimentalvalidation of twinning mechanisms in bcc iron alloys

14. Dieck, Sebastian SD effect in martensitic stainless steel under q&p heat treatment condition

15. Dunne, Fionn P.E.

Dislocation configurational energy in microstructurally sensitive fatigue crack

nucleation and propagation

16. Kim, Ji Hoon et al.

Constitutive modeling of anisotropic and cyclic behavior of polyethylene terephthalate sheets

17. Kowalewski, Zbigniew et al. Damage identification supported by nondestructive testing techniques

18. Egner, Halina et al. Cyclic softening of P91 steel in nonisothermal conditions

19. Qi, Zhengpan et al. Constitute modeling for the elastic-viscoplastic behavior of high density polyethylene

under cyclic loading