RT @ScienceAdvances: Orderly stacking of tiny crystals to make more flexible concrete @unikonstanz https://t.co/8rveb7UEnD https://t.co/bgQ…
RT @ScienceAdvances: Orderly stacking of tiny crystals to make more flexible concrete @unikonstanz https://t.co/8rveb7UEnD https://t.co/bgQ…
Orderly stacking of tiny crystals to make more flexible concrete @unikonstanz https://t.co/8rveb7UEnD https://t.co/bgQh97NoIz
La estructura molecular de las espinas de los erizos de mar han inspirado la creación de un cemento mucho más resistente. Un nuevo avance basado en la naturaleza. @scienmag https://t.co/moSbuYKlqt
RT @aaas: This novel method for creating bendable concrete was inspired by sea urchin spines - https://t.co/m6EQda55Uf #TogetherScienceCan…
Fracture-resistant cement inspired by the spines of sea urchins @ https://t.co/MUE1jwUTn1 #cement #concrete #Science #materials #chemistry
#Mesocrystalline #calcium #silicate #hydrate : A bioinspired #route toward elastic #concrete materials https://t.co/MF1atJV0rB
@Oslejs Ko par šo sakāt: https://t.co/l6RvfwAULn
RT @aaas: This novel method for creating bendable concrete was inspired by sea urchin spines - https://t.co/m6EQda55Uf #TogetherScienceCan…
This novel method for creating bendable concrete was inspired by sea urchin spines - https://t.co/m6EQda55Uf #TogetherScienceCan https://t.co/DRm6GznTmJ
RT @NCCRbioinspired: Urchins inspire better cement @unikonstanz https://t.co/yG2GSOBiS0 #materials https://t.co/2YK01Qc7Cc
Urchins inspire better cement @unikonstanz https://t.co/yG2GSOBiS0 #materials https://t.co/2YK01Qc7Cc
Mesocrystalline calcium silicate hydrate: A bioinspired route toward elastic concrete materials https://t.co/Ibdl2nGoZA