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D De Tommasi

Showing results (1-10 of 5) with videos related to

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Biophysical Journal|May 6, 2010
Damage, self-healing, and hysteresis in spider silksD De Tommasi, G Puglisi, G Saccomandi
Physical Review Letters|March 21, 2008
Localized versus diffuse damage in amorphous materialsD De Tommasi, G Puglisi, G Saccomandi
Journal of the Mechanical Behavior of Biomedical Materials|January 11, 2021
A predictive micromechanically-based model for damage and permanent deformations in copolymer suturesF Trentadue, D De Tommasi, G Puglisi
Journal of the Royal Society, Interface|September 20, 2013
An energetic model for macromolecules unfolding in stretching experimentsD De Tommasi, N Millardi, G Puglisi, et al.
Physical Review. E|January 20, 2018
Micromechanical model for protein materials: From macromolecules to macroscopic fibersG Puglisi, D De Tommasi, M F Pantano, et al.
Pageof 1

Showing results (1-10 of 5) with videos related to

Sort By:
Pageof 1
Biophysical Journal|May 6, 2010
Damage, self-healing, and hysteresis in spider silksD De Tommasi, G Puglisi, G Saccomandi
Physical Review Letters|March 21, 2008
Localized versus diffuse damage in amorphous materialsD De Tommasi, G Puglisi, G Saccomandi
Journal of the Mechanical Behavior of Biomedical Materials|January 11, 2021
A predictive micromechanically-based model for damage and permanent deformations in copolymer suturesF Trentadue, D De Tommasi, G Puglisi
Journal of the Royal Society, Interface|September 20, 2013
An energetic model for macromolecules unfolding in stretching experimentsD De Tommasi, N Millardi, G Puglisi, et al.
Physical Review. E|January 20, 2018
Micromechanical model for protein materials: From macromolecules to macroscopic fibersG Puglisi, D De Tommasi, M F Pantano, et al.
Pageof 1