Related references
Note: Only part of the references are listed.Electrical bioadhesive interface for bioelectronics
Jue Deng et al.
NATURE MATERIALS (2021)
Interfacial fatigue fracture of tissue adhesive hydrogels
Xiang Ni et al.
EXTREME MECHANICS LETTERS (2020)
Experimental Investigation of the Inelastic Response of Pig and Rat Skin Under Uniaxial Cyclic Mechanical Loading
N. Afsar-Kazerooni et al.
EXPERIMENTAL MECHANICS (2020)
A new adhesive bone conduction hearing system effectively treats conductive hearing loss in children
Katrin Neumann et al.
INTERNATIONAL JOURNAL OF PEDIATRIC OTORHINOLARYNGOLOGY (2019)
Bioinspired mechanically active adhesive dressings to accelerate wound closure
S. O. Blacklow et al.
SCIENCE ADVANCES (2019)
Dry double-sided tape for adhesion of wet tissues and devices
Hyunwoo Yuk et al.
NATURE (2019)
Current State of Bone Adhesives-Necessities and Hurdles
Kai O. Boeker et al.
MATERIALS (2019)
Fracture toughness of soft materials with rate-independent hysteresis
Yuan Qi et al.
JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS (2018)
A Constitutive Model for Soft Materials Incorporating Viscoelasticity and Mullins Effect
Tongqing Lu et al.
JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME (2017)
Mimicking biological stress-strain behaviour with synthetic elastomers
Mohammad Vatankhah-Varnosfaderani et al.
NATURE (2017)
Tough adhesives for diverse wet surfaces
J. Li et al.
SCIENCE (2017)
Fatigue fracture of hydrogels
Jingda Tang et al.
EXTREME MECHANICS LETTERS (2017)
Tough and tunable adhesion of hydrogels: experiments and models
Teng Zhang et al.
ACTA MECHANICA SINICA (2017)
Tough bonding of hydrogels to diverse non-porous surfaces
Hyunwoo Yuk et al.
NATURE MATERIALS (2016)
Hydroxyapatite-coated double network hydrogel directly bondable to the bone: Biological and biomechanical evaluations of the bonding property in an osteochondral defect
Susumu Wada et al.
ACTA BIOMATERIALIA (2016)
Fracture toughness of hydrogels: measurement and interpretation
Rong Long et al.
SOFT MATTER (2016)
Predicting fracture energies and crack-tip fields of soft tough materials
Teng Zhang et al.
EXTREME MECHANICS LETTERS (2015)
Multi-scale multi-mechanism design of tough hydrogels: building dissipation into stretchy networks
Xuanhe Zhao
SOFT MATTER (2014)
Hybrid Hydrogels with Extremely High Stiffness and Toughness
Jianyu Li et al.
ACS MACRO LETTERS (2014)
Highly stretchable and tough hydrogels
Jeong-Yun Sun et al.
NATURE (2012)
Cohesive Zone Models and Fracture
C. Y. Hui et al.
JOURNAL OF ADHESION (2011)
An anisotropic pseudo-elastic approach for modelling Mullins effect in fibrous biological materials
Estefania Pena et al.
MECHANICS RESEARCH COMMUNICATIONS (2009)
An experimental study of the mouse skin behaviour: Damage and inelastic aspects
M. J. Munoz et al.
JOURNAL OF BIOMECHANICS (2008)
Crack blunting and the strength of soft elastic solids
CY Hui et al.
PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES (2003)