Publications in peer-reviewed Journals
- L. Mishnaevsky Jr., C. Hasager, C. Bak, A.M. Tilg, J. I. Bech, S. D. Rad, S. Fæster, Leading edge erosion of wind turbine blades: Understanding, prevention and protection, Renewable Energy 169 (2021) 953e969
- L. Mishnaevsky Jr., Root causes and mechanisms of failure of wind turbine blades: Overview, Materials, 2022, https://doi.org/10.3390/ma15092959
- L. Mishnaevsky Jr. Repair of wind turbine blades: Technologies, modelling, costs, WindTech International, 05 May 2022
- N.F.J. Johansen, L. Mishnaevsky Jr., A. Dashtkar, N. A. Williams, A. Silvello, I.G.Cano, H. Hadavinia, Nanoengineered graphene reinforced coating for leading edge protection of wind turbine blades, Coatings 2021, 11(9), 1104
- L. Mishnaevsky Jr., N.F.N. Johansen, A. Fraisse, S. Fæster, Th. Jensen and B. Bendixen, Technologies of wind turbine blade repair: practical comparison. Energies. 2022; 15(5):1767.
- A. Dashtkar, N.F.N.Johansen, L.Mishnaevsky Jr., N.A. Williams, A. Silvello, I.G. Cano, H. Hadavinia, Graphene sol gel modified polyurethane coating materials: Properties and performance, Polymers and Polymer Composites, 2022,Vol. 30: 1–18
- N. Kuthe, P. Mahajan, S. Ahmad and L, Mishnaevsky Jr, Engineered anti-erosion coating for wind turbine blade protection: Computational analysis, Materials Today Communications, https://doi.org/10.1016/j.mtcomm.2022.103362
- L. Mishnaevsky Jr., Sustainable end-of-life management of wind turbine blades: Overview of current and coming solutions. Materials 2021, 14
- L. Mischnaewski III, L. Mishnaevsky Jr., Structural repair of wind turbine blades: Computational model for the evaluation of the effects of adhesive and patch properties on the repair quality, Wind Energy, DOI: 10.1002/we.2575
- L. Mishnaevsky Jr.: Repair of wind turbine blades: Review of methods, Renewable Energy, Vol. 140, 2019
- L. Mishnaevsky Jr.: Toolbox for optimizing anti-erosion protective coatings of wind turbine blades: Overview of mechanisms and technical solutions, Wind Energy 2019
- S. Fæster et al,, Rain erosion of wind turbine blades and the effect of air bubbles in the coatings, Wind Energy, http://dx.doi.org/10.1002/we.2617
- S.D. Rad, L. Mishnaevsky Jr, Leading edge erosion of wind turbine blades: Computational modelling of multiaxial fatigue, Wind Energy,, 23/8
- M. McGugan, L. Mishnaevsky Jr. Damage mechanism based approach to the structural health monitoring of wind turbine blades, Coatings 2020, 10(12)
- L. Mishnaevsky Jr., K. Thomsen, Costs of repair of wind turbine blades: Influence of technology aspects, Wind Energy, 2020, 23 (12) 2247-2255
- K. M. Jespersen, G. Monastyreckis, & L. Mishnaevsky Jr, 2020, On the potential of particle engineered anti-erosion coatings for leading edge protection of wind turbine blades: Computational studies. 41st Risø Symposium, IOP Conference Series. 942, 1, 012027
- L. Mishnaevsky Jr., J. Sütterlin: Micromechanical model of surface erosion of polyurethane coatings on wind turbine blades, Polymer Degradation and Stability 166, 2019
- A. Fraisse, et al, Impact fatigue damage of coated glass fibre reinforced polymer laminate, Renewable Energy 126 (2018) 1102e1112
- L. Mishnaevsky Jr., S. Fæster, L. P. Mikkelsen, Y. Kusano and J.I. Bech, Micromechanisms of leading edge erosion of wind turbine blades: X-Ray tomography analysis and computational studies, Wind Energy 2019; 1–16.
- S.D. Rad, L. Mishnaevsky Jr. Rain erosion of wind turbine blades: Computational analysis of parameters controlling the surface degradation, Meccanica, 55
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