User:Impgmish/sandbox

Leon Mishnaevsky Jr, is a Senior Researcher at theTechnical University of Denmark, Department of Wind Energy. His research interests include computational micromechanics of composites and nanoengineered materials. After PhD studies at the Ukrainian Academy of Science, Institute of Superhard Materials, and postdoctoral stay at the Vienna University of Technology (Austria), Leon Mishnaevsky Jr. has been worked as Humboldt Fellow, then Research Scientist and Heisenberg Fellow of DFG at the University of Stutgart, Germany. In 2005, he has got his Hablitation at the Darmstadt University of Technology, Germany, and started as a Senior Researcher at the Risø National Laboratory, Denmark. Leon Mishnaevsky Jr. has held visiting professor/visiting scholar positions at M.I.T. and Rutgers (USA), University of Tokyo (Japan) and Ecole Nationale Superieure d'Arts et Metiers (France). As a coordinator of the research and development project “Wind energy in Nepal: Materials aspects”, he was responsible for development and introducing timber based low cost wind turbines in Nepal. As a coordinator of EU project “Virtual Nanotitanium/VINAT”, he led the development of computational models for novel nanostructured titanium based materials for medical implants.

Selected Publications:

 * 1) 1.	S. Schmauder, L. Mishnaevsky Jr, Micromechanics and Nanosimulation of Metals and Composites, Springer, 2008, 420 pp.
 * 2) 2.	L. Mishnaevsky Jr, Computational Mesomechanics of Composites, John Wiley and Sons, 2007, 280 pp.
 * 3) 3.	L. Mishnaevsky Jr, Damage and Fracture of Heterogeneous Materials, Taylor & Francis, 1998, 230 pp
 * 4) 4.	L. Mishnaevsky Jr, K. Branner, H.N. Petersen, J. Beauson, M.McGugan and B. Sørensen, Materials for wind turbine blades: An overview, Materials 2017, 2017, 10(11), 1285
 * 5) 5.	L. Mishnaevsky Jr. R. Valiev, E. Gutmanas et al. Nanostructured titanium based materials for medical implants: Modeling and development, Materials Science & Engineering  R: Reports.Vol. 81, 2014, pp.  1–19
 * 6) 6.	L. Mishnaevsky Jr. H.W. Zhou, H. Y. Yi, L. L. Gui, R. D. Peng, H.W. Wang, Microscale damage mechanisms and degradation of fiber reinforced composites for wind energy applications: Results of Danish-Chinese collaborative investigations, J. Composite Materials, 2014, Vol. 48(24) 2977–2991

References:

 * Official Webpage (https://www.dtu.dk/english/service/phonebook/person?id=38774&tab=1) at the Technical University of Denmark
 * Sino-Danish cooperation on wind turbine blade materials, 22 March 2011, Renewable Energy focus (http://www.renewableenergyfocus.com/view/16758/sino-danish-cooperation-on-wind-turbine-blade-materials/)
 * Nanostrukturerede materialer til stærkere implantater, DTU Nyhered (in Danish) (http://www.dtu.dk/Nyheder/Nyhed?id=%7bBAC65840-8FF6-44B3-AFB3-003708D08101%7d)
 * "Joint industry project tackles leading edge erosion", Wind Power Monthly, 6 .11.2018 (https://www.windpowermonthly.com/article/1498134/joint-industry-project-tackles-leading-edge-erosion)