Self-sustaining reactions induced by ball milling L Takacs Progress in materials science 47 (4), 355-414, 2002 | 837 | 2002 |
The historical development of mechanochemistry L Takacs Chemical Society Reviews 42 (18), 7649-7659, 2013 | 742 | 2013 |
Temperature of the milling balls in shaker and planetary mills L Takacs, JS McHenry Journal of materials science 41, 5246-5249, 2006 | 181 | 2006 |
Mechanical response and modeling of fully compacted nanocrystalline iron and copper AS Khan, H Zhang, L Takacs International Journal of Plasticity 16 (12), 1459-1476, 2000 | 181 | 2000 |
Nanocrystalline aluminum and iron: Mechanical behavior at quasi-static and high strain rates, and constitutive modeling AS Khan, YS Suh, X Chen, L Takacs, H Zhang International Journal of Plasticity 22 (2), 195-209, 2006 | 178 | 2006 |
Effect of grain refinement on mechanical properties of ball-milled bulk aluminum AS Khan, B Farrokh, L Takacs Materials Science and Engineering: A 489 (1-2), 77-84, 2008 | 162 | 2008 |
Quicksilver from cinnabar: The first documented mechanochemical reaction? L Takacs JOM 52, 12-13, 2000 | 153 | 2000 |
Reduction of magnetite by aluminum: a displacement reaction induced by mechanical alloying L Takacs Materials Letters 13 (2-3), 119-124, 1992 | 126 | 1992 |
Mossbauer study of the intermetallic compounds (Fe1-xCox) 2B and (Fe1-xCox) B L Takacs, MC Cadeville, I Vincze Journal of Physics F: Metal Physics 5 (4), 800, 1975 | 114 | 1975 |
Metal-metal oxide systems for nanocomposite formation by reaction milling L Takacs Nanostructured Materials 2 (3), 241-249, 1993 | 99 | 1993 |
M. Carey Lea, the first mechanochemist L Takacs Journal of Materials Science 39, 4987-4993, 2004 | 97 | 2004 |
Preparation of multicomponent oxides by mechanochemical methods AF Fuentes, L Takacs Journal of Materials Science 48 (2), 598-611, 2013 | 80 | 2013 |
The mechanochemical reduction of AgCl with metals: Revisiting an experiment of M. Faraday L Takacs Journal of Thermal Analysis and Calorimetry 90, 81-84, 2007 | 78 | 2007 |
Compressive properties of Cu with different grain sizes: sub-micron to nanometer realm AS Khan, B Farrokh, L Takacs Journal of materials science 43, 3305-3313, 2008 | 73 | 2008 |
Nanocomposite formation in the fe3o4‐zn system by reaction milling L Takacs, M Pardavi‐Horvath Journal of Applied Physics 75 (10), 5864-5866, 1994 | 73 | 1994 |
Iron-alumina nanocomposites prepared by ball milling M Pardavi-Horvath, L Takacs IEEE transactions on magnetics 28 (5), 3186-3188, 1992 | 73 | 1992 |
Ball milling-induced combustion in powder mixtures containing titanium, zirconium, or hafnium L Takacs Journal of Solid State Chemistry 125 (1), 75-84, 1996 | 72 | 1996 |
Mechanical behavior of ultrafine-grained/nanocrystalline titanium synthesized by mechanical milling plus consolidation: Experiments, modeling and simulation J Liu, AS Khan, L Takacs, CS Meredith International Journal of Plasticity 64, 151-163, 2015 | 70 | 2015 |
Information on the mechanism of mechanochemical reaction from detailed studies of the reaction kinetics F Delogu, L Takacs Journal of Materials Science 53, 13331-13342, 2018 | 62 | 2018 |
Self-sustaining reactions induced by ball milling: an overview L Takacs International journal of self-propagating high-temperature synthesis 18, 276-282, 2009 | 62 | 2009 |