Greer science 12 sep 2014.
Strong lightweight and recoverable three dimensional ceramic nanolattices.
Hollow tube alumina nanolattices composed of nanoscale ceramic through hybrid technique including tpa atomic layer.
Here we fabricated pyrolytic carbon nanolattices with designable topologies by a two step procedure.
Meza satyajit das julia r.
Strong lightweight and recoverable three dimensional ceramic nanolattices.
Strong and energy absorbing and can recover their original shape after compressions in excess of 50 strain.
The smallest characteristic size of the nanolattices.
Ceramic metal or composite material nanolattices are formed by post treatment of the polymer templates with techniques including pyrolysis atomic layer deposition electroplating and electroless plating.
2014 strong lightweight and recoverable three dimensional ceramic nanolattices.
Direct laser writing and pyrolysis at high temperature.
Strong lightweight and recoverable three dimensional ceramic nanolattices meza lucas r.
Hollow tube alumina nanolattices were fabricated using two photon lithography atomic layer deposition and oxygen plasma etching.
Meza 1satyajit das julia r.
Strong lightweight and recoverable three dimensional ceramic nanolattices meza lucas r.
Meza 1satyajit das julia r.
Hollow tube alumina nanolattices were fabricated using two photon lithography.
Sorry we are unable to provide the full text but you may find it at the following location s.
Greer1 2 ceramics have some of the highest strength and stiffness to weight ratios of any material but are suboptimal for use as structural materials because of their brittleness and sensitivity to flaws.
Greer1 2 ceramics have some of the highest.
Reports low density materials strong lightweight and recoverable three dimensional ceramic nanolattices lucas r.
A long standing challenge in modern materials manufacturing and design has been to create porous materials that are simultaneously lightweight strong stiff and flaw tolerant.
Strong lightweight and recoverable three dimensional ceramic nanolattices by lucas r.