Add to ORKGRapid progress in additive manufacturing methods has created a new class of ultralight and strong architected metamaterials that resemble periodic truss structures. The mechanical performance of these metamaterials with a very large number of unit cells is ultimately limited by their tolerance to damage and defects, but an understanding of this sensitivity has remained elusive. Using a stretching-dominated micro-architecture and metamaterial specimens comprising millions of unit-cells we show that not only is the stress intensity factor, as used in conventional elastic fracture mechanics, insufficient to characterize fracture but also that conventional fracture testing protocols are inadequate. Via a combination of numerical calculations an...
Exploiting small scale material effects and structural topology, nano-architected lattices represent...
The concept of "mechanical metamaterials" has become increasingly popular, since their macro-scale c...
This is an accepted manuscript of an article published by Elsevier in Reference Module in Materials ...
There has been a recent explosion in the development of light and strong mechanical metamaterials re...
The only engineering materials with both high strength and toughness, and with densities less than 1...
The only engineering materials with both high strength and toughness, and with densities less than 1...
© 2020 We investigate the possibility of achieving high fracture toughness and high strength by the ...
We investigate the possibility of achieving high fracture toughness and high strength by the design ...
This paper focuses on the potential of curvy mechanical metamaterials to show how topological design...
Exploiting small scale material effects and structural topology, nano-architected lattices represent...
The concept of “mechanical metamaterials„ has become increasingly popular, since their m...
The concept of "mechanical metamaterials" has become increasingly popular, since their macro-scale c...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
Few engineering materials are limited by their strength; rather they are limited by their resistance...
Exploiting small scale material effects and structural topology, nano-architected lattices represent...
The concept of "mechanical metamaterials" has become increasingly popular, since their macro-scale c...
This is an accepted manuscript of an article published by Elsevier in Reference Module in Materials ...
There has been a recent explosion in the development of light and strong mechanical metamaterials re...
The only engineering materials with both high strength and toughness, and with densities less than 1...
The only engineering materials with both high strength and toughness, and with densities less than 1...
© 2020 We investigate the possibility of achieving high fracture toughness and high strength by the ...
We investigate the possibility of achieving high fracture toughness and high strength by the design ...
This paper focuses on the potential of curvy mechanical metamaterials to show how topological design...
Exploiting small scale material effects and structural topology, nano-architected lattices represent...
The concept of “mechanical metamaterials„ has become increasingly popular, since their m...
The concept of "mechanical metamaterials" has become increasingly popular, since their macro-scale c...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
High-energy absorption and light-weightiness are two critical properties for impact protection in th...
Few engineering materials are limited by their strength; rather they are limited by their resistance...
Exploiting small scale material effects and structural topology, nano-architected lattices represent...
The concept of "mechanical metamaterials" has become increasingly popular, since their macro-scale c...
This is an accepted manuscript of an article published by Elsevier in Reference Module in Materials ...