Deformation and fracture of echinoderm collagen networks

Ovaska, M.; Bertalan, Z.; Miksic, A.; Sugni, M.; Di Benedetto, C.; Ferrario, C.; Leggio, L.; Guidetti, L.; Alava, M.J.; La Porta, C.A.M.; Zapperi, S.

doi:10.1016/j.jmbbm.2016.07.035

Collagen networks provide the main structural component of most tissues and represent an important ingredient for bio-mimetic materials for bio-medical applications. Here we study the mechanical properties of stiff collagen networks derived from three different echinoderms and show that they exhibit non-linear stiffening followed by brittle fracture. The disordered nature of the network leads to strong sample-to-sample fluctuations in elasticity and fracture strength. We perform numerical simulations of a three dimensional model for the deformation of a cross-linked elastic fibril network which is able to reproduce the macroscopic features of the experimental results and provide insights into the internal mechanics of stiff collagen networks. Our numerical model provides an avenue for the design of collagen membranes with tunable mechanical properties.

Deformation and fracture of echinoderm collagen networks / M. Ovaska, Z. Bertalan, A. Miksic, M. Sugni, C. Di Benedetto, C. Ferrario, L. Leggio, L. Guidetti, M.J. Alava, C.A.M. La Porta, S. Zapperi. - In: JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS. - ISSN 1751-6161. - 65(2017 Jan), pp. 42-52. [10.1016/j.jmbbm.2016.07.035]

Deformation and fracture of echinoderm collagen networks

M. Ovaska;Z. Bertalan;A. Miksic;M. Sugni;C. Di Benedetto;C. Ferrario;L. Leggio;L. Guidetti;M. J. Alava;C.A.M. La Porta;S. Zapperi^Ultimo

2017

Abstract

Collagen networks provide the main structural component of most tissues and represent an important ingredient for bio-mimetic materials for bio-medical applications. Here we study the mechanical properties of stiff collagen networks derived from three different echinoderms and show that they exhibit non-linear stiffening followed by brittle fracture. The disordered nature of the network leads to strong sample-to-sample fluctuations in elasticity and fracture strength. We perform numerical simulations of a three dimensional model for the deformation of a cross-linked elastic fibril network which is able to reproduce the macroscopic features of the experimental results and provide insights into the internal mechanics of stiff collagen networks. Our numerical model provides an avenue for the design of collagen membranes with tunable mechanical properties.

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Scheda completa (DC)

	Parole chiave
	
			collagen networks; computational model; echinoderms; elasticity; fracture
		
	Settori scientifico-disciplinari dell'articolo
	
			Settore MED/04 - Patologia Generale
		
	Data di pubblicazione
	
			gen-2017
		
	Data ahead of print o data di stampa
	
			5-ago-2016
		
	Rivista in ANCE
	
			JOURNAL OF THE MECHANICAL BEHAVIOR OF BIOMEDICAL MATERIALS
		
	DOI
	
			https://dx.doi.org/10.1016/j.jmbbm.2016.07.035
		
	Tipologia
	
			Article (author)
		
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			01 - Articolo su periodico

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/438991

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