Siamo lieti di annunciare che il vincitore del premio Robert W. Cahn (riconoscimento organizzato dal Journal of Materials Science) come miglior pubblicazione del 2014, va al paper Mechanical characterization of hollow ceramic nanolattices, scritto da Lucas R. Meza e Julia R. Greer del California Institute of Technology. La pubblicazione è consultabile cliccando qui.
Questo paper è stato scritto riportando i risultati tecnici ottenuti utilizzando i prodotti InSEM della Nanomechanics, distribuita per l'Italia da Schaefer.
Lucas R. Meza - Division of Engineering and Applied Science, California Institute of Technology
Julia R. Greer - Kavli Nanoscience Institute, California Institute of Technology
"In the analysis of complex, hierarchical structural meta-materials, it is critical to understand the mechanical behavior at each level of hierarchy in order to understand the bulk material response. We report the fabrication and mechanical deformation of hierarchical hollow tube lattice structures with features ranging from 10 nm to 100 μm, hereby referred to as nanolattices. Titanium nitride (TiN) nanolattices were fabricated using a combination of two-photon lithography, direct laser writing, and atomic layer deposition. [...]"
Setup dell'esperimento
"The individual unit cells and the full nanolattice structures were quasi-statically compressed to failure in an in situ nanoindentation instrument InSEM (Nanomechanics, Inc., Tenessee) previously referred to as SEMentor. [...]"
La pubblicazione che ha vinto il Premio Robert W. Cahn per il 2014 ha utilizzato l'InSEM della Nanomechanics
Siamo lieti di annunciare che il vincitore del premio Robert W. Cahn (riconoscimento organizzato dal Journal of Materials Science) come miglior pubblicazione del 2014, va al paper Mechanical characterization of hollow ceramic nanolattices, scritto da Lucas R. Meza e Julia R. Greer del California Institute of Technology. La pubblicazione è consultabile cliccando qui.
Questo paper è stato scritto riportando i risultati tecnici ottenuti utilizzando i prodotti InSEM della Nanomechanics, distribuita per l'Italia da Schaefer.
Lucas R. Meza - Division of Engineering and Applied Science, California Institute of Technology
Julia R. Greer - Kavli Nanoscience Institute, California Institute of Technology
Documenti e file
"In the analysis of complex, hierarchical structural meta-materials, it is critical to understand the mechanical behavior at each level of hierarchy in order to understand the bulk material response. We report the fabrication and mechanical deformation of hierarchical hollow tube lattice structures with features ranging from 10 nm to 100 μm, hereby referred to as nanolattices. Titanium nitride (TiN) nanolattices were fabricated using a combination of two-photon lithography, direct laser writing, and atomic layer deposition. [...]"
"The individual unit cells and the full nanolattice structures were quasi-statically compressed to failure in an in situ nanoindentation instrument InSEM (Nanomechanics, Inc., Tenessee) previously referred to as SEMentor. [...]"