[HTML][HTML] Geometric effects on impact mitigation in architected auxetic metamaterials
T Gärtner, SJ van den Boom, J Weerheijm - Mechanics of Materials, 2024 - Elsevier
Lightweight materials used for impact mitigation must be able to resist impact and absorb the
maximum amount of energy from the impactor. Auxetic materials have the potential to …
maximum amount of energy from the impactor. Auxetic materials have the potential to …
Geometric effects on impact mitigation in architected auxetic metamaterials
T Gärtner, SJ van den Boom… - Mechanics of …, 2024 - ui.adsabs.harvard.edu
Lightweight materials used for impact mitigation must be able to resist impact and absorb the
maximum amount of energy from the impactor. Auxetic materials have the potential to …
maximum amount of energy from the impactor. Auxetic materials have the potential to …
[PDF][PDF] Geometric effects on impact mitigation in architected auxetic metamaterials
T Gärtner, SJ van den Boom, J Weerheijm… - Mechanics of …, 2024 - researchgate.net
Lightweight materials used for impact mitigation must be able to resist impact and absorb the
maximum amount of energy from the impactor. Auxetic materials have the potential to …
maximum amount of energy from the impactor. Auxetic materials have the potential to …
Geometric effects on impact mitigation in architected auxetic metamaterials
T Gärtner, SJ van den Boom, J Weerheijm… - Mechanics of …, 2024 - research.tudelft.nl
Lightweight materials used for impact mitigation must be able to resist impact and absorb the
maximum amount of energy from the impactor. Auxetic materials have the potential to …
maximum amount of energy from the impactor. Auxetic materials have the potential to …