Novel high speed nanoindentation data is reported for 0% and 100% state of charge (SoC) for the spinal LixMn2O4 material. The article also includes the load/displacement data for different SoC highlighting the displacement bursts corresponding to the pillar splitting for fracture toughness evaluation. For more details, please see the article; Mughal et al. (2016) [1].
Mughal, M.Z., Moscatelli, R., Sebastiani, M. (2016). Load displacement and high speed nanoindentation data set at different state of charge (SoC) for spinel LixMn2O4 cathodes. DATA IN BRIEF, 8, 203-206 [10.1016/j.dib.2016.05.034].
Load displacement and high speed nanoindentation data set at different state of charge (SoC) for spinel LixMn2O4 cathodes
MUGHAL, MUHAMMAD ZEESHAN;MOSCATELLI, RICCARDO;SEBASTIANI, MARCO
2016-01-01
Abstract
Novel high speed nanoindentation data is reported for 0% and 100% state of charge (SoC) for the spinal LixMn2O4 material. The article also includes the load/displacement data for different SoC highlighting the displacement bursts corresponding to the pillar splitting for fracture toughness evaluation. For more details, please see the article; Mughal et al. (2016) [1].File in questo prodotto:
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