Jeffrey M. Wheeler
Jeffrey M. Wheeler
Senior Scientist, FemtoTools AG
Verified email at - Homepage
Cited by
Cited by
High temperature nanoindentation: The state of the art and future challenges
JM Wheeler, DEJ Armstrong, W Heinz, R Schwaiger
Current Opinion in Solid State and Materials Science 19 (6), 354-366, 2015
Nanocrystalline high-entropy alloys: a new paradigm in high-temperature strength and stability
Y Zou, JM Wheeler, H Ma, P Okle, R Spolenak
Nano Letters 17 (3), 1569-1574, 2017
Template‐free 3D microprinting of metals using a force‐controlled nanopipette for layer‐by‐layer electrodeposition
L Hirt, S Ihle, Z Pan, L Dorwling‐Carter, A Reiser, JM Wheeler, ...
Advanced Materials 28 (12), 2311-2315, 2016
Elevated temperature, nano-mechanical testing in situ in the scanning electron microscope
JM Wheeler, J Michler
Review of Scientific Instruments 84 (4), 045103, 2013
Multi-metal electrohydrodynamic redox 3D printing at the submicron scale
A Reiser, M Lindén, P Rohner, A Marchand, H Galinski, AS Sologubenko, ...
Nature Communications 10 (1), 1853, 2019
Evaluation of micromechanical behaviour of plasma electrolytic oxidation (PEO) coatings on Ti–6Al–4V
JM Wheeler, CA Collier, JM Paillard, JA Curran
Surface and Coatings Technology 204 (21-22), 3399-3409, 2010
Invited article: Indenter materials for high temperature nanoindentation
JM Wheeler, J Michler
Review of Scientific Instruments 84 (10), 101301, 2013
Temperature-dependent size effects on the strength of Ta and W micropillars
OT Abad, JM Wheeler, J Michler, AS Schneider, E Arzt
Acta Materialia 103, 483-494, 2016
Activation parameters for deformation of ultrafine-grained aluminium as determined by indentation strain rate jumps at elevated temperature
JM Wheeler, V Maier, K Durst, M Göken, J Michler
Materials Science and Engineering: A 585, 108-113, 2013
Microstructure and multi-scale mechanical behavior of hard anodized and plasma electrolytic oxidation (PEO) coatings on aluminum alloy 5052
JM Wheeler, JA Curran, S Shrestha
Surface and Coatings Technology 207, 480-488, 2012
Measuring the fracture resistance of hard coatings
S Liu, JM Wheeler, PR Howie, XT Zeng, J Michler, WJ Clegg
Applied Physics Letters 102, 171907, 2013
High temperature microcompression and nanoindentation in vacuum
S Korte, RJ Stearn, JM Wheeler, WJ Clegg
Journal of materials research 27 (1), 167-176, 2012
Elevated temperature, strain rate jump microcompression of nanocrystalline nickel
G Mohanty, JM Wheeler, R Raghavan, J Wehrs, M Hasegawa, S Mischler, ...
Philosophical Magazine 95, 1878-1895, 2014
Nanomechanical testing at high strain rates: New instrumentation for nanoindentation and microcompression
G Guillonneau, M Mieszala, J Wehrs, J Schwiedrzik, S Grop, D Frey, ...
Materials & Design 148, 39-48, 2018
Extraction of plasticity parameters of GaN with high temperature, in situ micro-compression
JM Wheeler, C Niederberger, C Tessarek, S Christiansen, J Michler
International Journal of Plasticity 40, 140-151, 2012
Elevated temperature, in situ indentation with calibrated contact temperatures
JM Wheeler, P Brodard, J Michler
Philosophical Magazine 92 (25-27), 3128-3141, 2012
Fracture of Silicon: Influence of rate, positioning accuracy, FIB machining, and elevated temperatures on toughness measured by pillar indentation splitting
CM Lauener, L Petho, M Chen, Y Xiao, J Michler, JM Wheeler
Materials & Design 142, 340-349, 2018
Use of quasi-static nanoindentation data to obtain stress-strain characteristics for metallic materials
J Dean, JM Wheeler, TW Clyne
Acta Materialia 58 (10), 3613-3623, 2010
Microscale fracture behavior of single crystal silicon beams at elevated temperatures
BN Jaya, JM Wheeler, J Wehrs, JP Best, R Soler, J Michler, ...
Nano Letters 16 (12), 7597-7603, 2016
Metals by micro‐scale additive manufacturing: Comparison of microstructure and mechanical properties
A Reiser, L Koch, KA Dunn, T Matsuura, F Iwata, O Fogel, Z Kotler, ...
Advanced functional materials 30 (28), 1910491, 2020
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