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Showing 1–6 of 6 results

Advanced filters: Author: Eran Bouchbinder Clear advanced filters

Quenched disorder and instability control dynamic fracture in three dimensions

Materials fail by the three-dimensional (3D) propagation of cracks. The authors show that material disorder is essential for understanding a wide variety of experimental observations on 3D spatiotemporal failure dynamics and emerging structures.

Yuri Lubomirsky
Eran Bouchbinder
ResearchOpen Access29 Aug 2024
Nature Communications

Volume: 15, P: 1-10
Unconventional singularities and energy balance in frictional rupture

Ordinary cracks in bulk materials feature square root singular deformation fields near their edge. Here, the authors show that rupture fronts propagating along frictional interfaces, while resembling ordinary cracks in some respects, feature edge sigularity that differs from the conventional square root one.

Efim A. Brener
Eran Bouchbinder
ResearchOpen Access10 May 2021
Nature Communications

Volume: 12, P: 1-9
Instability in dynamic fracture and the failure of the classical theory of cracks

Understanding crack formation is important for improving the mechanical performance of materials. A new theory is now presented for the description of cracks propagating at high speeds, with elastic nonlinearity as the underlying principle.

Chih-Hung Chen
Eran Bouchbinder
Alain Karma
Research21 Aug 2017
Nature Physics

Volume: 13, P: 1186-1190
Cell reorientation under cyclic stretching

Cells sense their physical environment and reorient in response to cyclic mechanical deformation. Here the authors show that existing models do not adequately explain this phenomenon, and develop a new theory based on the active relaxation of passively stored elastic energy.

Ariel Livne
Eran Bouchbinder
Benjamin Geiger
Research30 May 2014
Nature Communications

Volume: 5, P: 1-8
Mechanical glass transition revealed by the fracture toughness of metallic glasses

Understanding the fracture toughness of metallic glasses remains challenging. Here, the authors show that a fictive temperature controls an abrupt mechanical toughening transition in metallic glasses, and can explain the scatter in previously reported fracture toughness data.

Jittisa Ketkaew
Wen Chen
Jan Schroers
ResearchOpen Access16 Aug 2018
Nature Communications

Volume: 9, P: 1-7
Velocity-strengthening friction significantly affects interfacial dynamics, strength and dissipation

Yohai Bar-Sinai
Robert Spatschek
Eran Bouchbinder
ResearchOpen Access19 Jan 2015
Scientific Reports

Volume: 5, P: 1-8