Dr. Lola Lilensten

Profil

Derzeitige Stellung	Professor W-1 und Äquivalente
Fachgebiet	Metallurgische, thermische und thermomechanische Behandlung von Werkstoffen
Keywords	microscopy, mechanical testing, alloy design, strain transformable materials, deformation mechanisms

Aktuelle Kontaktadresse

Land	Frankreich
Ort	Paris
Universität/Institution	Ecole Superieure de Physique et de Chimie Industrielles de la Ville de Paris (ESPCI)
Institut/Abteilung	Institut de Recherche de Chimie-Paris (IRCP)

Gastgeber*innen während der Förderung

Prof. Dr.-Ing. Dierk Raabe	Max-Planck-Institut für Nachhaltige Materialien, Düsseldorf
Beginn der ersten Förderung	01.06.2019

Programm(e)

2019	Humboldt-Forschungsstipendien-Programm für Postdocs

Publikationen (Auswahl)

2021	Lilensten, L. and Antonov, S. and Gault, B. and Tin, S. and Kontis, P.: Enhanced creep performance in a polycrystalline superalloy driven by atomic-scale phase transformation along planar faults. In: Acta Materialia, 202, 2021, 232-242
2020	Cheng, G.-J. and Lilensten, L. and Huang, C.-Y. and Gault, B. and Yen, H.-W.: Nanoscale compositional fluctuations enabled by dynamic strain-induced austenite reversion in a Mn-rich duplex steel. In: Scripta Materialia, 181, 2020, 101-107
2020	Lilensten, L. and Gault, B.: New approach for FIB-preparation of atom probe specimens for aluminum alloys. In: PLoS ONE, 15, 2020,
2020	Lilensten, L. and Kürnsteiner, P. and Mianroodi, J.R. and Cervellon, A. and Moverare, J. and Segersäll, M. and Antonov, S. and Kontis, P.: Segregation of Solutes at Dislocations: A New Alloy Design Parameter for Advanced Superalloys. In: Minerals, Metals and Materials Series, 2020, 41-51
2020	Guillot, I. and Tyrman, M. and Perrière, L. and Couzinié, J.-P.P. and Lilensten, L. and Prima, F. and Dirras, G.: Ultrafine-Grained Two-Phase High-Entropy Alloy Microstructures Obtained via Recrystallization: Mechanical Properties. In: Frontiers in Materials, 7, 2020,
2019	Lilensten, L. and Antonov, S. and Raabe, D. and Tin, S. and Gault, B. and Kontis, P.: Deformation of Borides in Nickel-based Superalloys: A study of segregation at dislocations. In: Microscopy and Microanalysis, 25, 2019, 2538-2539
2019	Lilensten, L. and Danard, Y. and Brozek, C. and Mantri, S. and Castany, P. and Gloriant, T. and Vermaut, P. and Sun, F. and Banerjee, R. and Prima, F.: On the heterogeneous nature of deformation in a strain-transformable beta metastable Ti-V-Cr-Al alloy. In: Acta Materialia, 162, 2019, 268-276
2018	Lilensten, L. and Couzinié, J.-P. and Perrière, L. and Hocini, A. and Keller, C. and Dirras, G. and Guillot, I.: Study of a bcc multi-principal element alloy: Tensile and simple shear properties and underlying deformation mechanisms. In: Acta Materialia, 142, 2018, 131-141
2017	Lilensten, L. and Couzinié, J.-P. and Bourgon, J. and Perrière, L. and Dirras, G. and Prima, F. and Guillot, I.: Design and tensile properties of a bcc Ti-rich high-entropy alloy with transformation-induced plasticity. In: Materials Research Letters, 5, 2017, 110-116
2017	Heczel, A. and Lilensten, L. and Bourgon, J. and Perrière, L. and Couzinié, J.-P. and Guillot, I. and Dirras, G. and Huang, Y. and Langdon, T.G. and Gubicza, J.: Influence of high-pressure torsion on the microstructure and the hardness of a Ti-Rich high-entropy alloy. In: Materials Science Forum, 879, 2017, 732-737
2016	Sadat, T. and Hocini, A. and Lilensten, L. and Faurie, D. and Tingaud, D. and Dirras, G.: Data on the impact of increasing the W amount on the mass density and compressive properties of Ni-W alloys processed by spark plasma sintering. In: Data in Brief, 7, 2016, 1405-1408
2016	Dirras, G. and Lilensten, L. and Djemia, P. and Laurent-Brocq, M. and Tingaud, D. and Couzinié, J.-P. and Perrière, L. and Chauveau, T. and Guillot, I.: Elastic and plastic properties of as-cast equimolar TiHfZrTaNb high-entropy alloy. In: Materials Science and Engineering A, 654, 2016, 30-38
2016	Dirras, G. and Couque, H. and Lilensten, L. and Heczel, A. and Tingaud, D. and Couzinié, J.-P. and Perrière, L. and Gubicza, J. and Guillot, I.: Mechanical behavior and microstructure of Ti20Hf20Zr20Ta20Nb20 high-entropy alloy loaded under quasi-static and dynamic compression conditions. In: Materials Characterization, 111, 2016, 106-113
2015	Dirras, G. and Gubicza, J. and Heczel, A. and Lilensten, L. and Couzinié, J.-P. and Perrière, L. and Guillot, I. and Hocini, A.: Microstructural investigation of plastically deformed Ti20Zr20Hf20Nb20Ta20 high entropy alloy by X-ray diffraction and transmission electron microscopy. In: Materials Characterization, 108, 2015, 1-7
2015	Couzinié, J.-P. and Lilensten, L. and Champion, Y. and Dirras, G. and Perrière, L. and Guillot, I.: On the room temperature deformation mechanisms of a TiZrHfNbTa refractory high-entropy alloy. In: Materials Science and Engineering A, 645, 2015, 255-263
2014	Lilensten, L. and Fu, Q. and Wheaton, B.R. and Credle, A.J. and Stewart, R.L. and Kohli, J.T.: Kinetic study on lithium-aluminosilicate (LAS) glass-ceramics containing MgO and ZnO. In: Ceramics International, 40, 2014, 11657-11661
2014	Lilensten, L. and Couzinié, J.P. and Perrière, L. and Bourgon, J. and Emery, N. and Guillot, I.: New structure in refractory high-entropy alloys. In: Materials Letters, 132, 2014, 123-125