Add to ORKGThis study investigates the propagation of shock waves and self-preserving waves in soft tissues such as brain as a mecha-nism of injury in high rate loading conditions as seen in blast-induced neurotrauma (BINT). The derived mathematical mod-els indicate that whereas linear viscoelastic models predict only decaying waves, instances of such phenomena as shock can be achieved in nonlinear media. In this study, a nonlinear viscoelas-tic material model for brain tissue was developed in compres-sion. Furthermore, nonlinear viscoelastic wave propagation in brain tissue was studied and a criterion for the development of shock waves was formulated. It was shown that discontinuities in the acceleration that happen in blast loading conditions may ev...
Mechanical characterization of brain tissue at high loading velocities is particularly important for...
In this dissertation, theoretical, computational, and experimental methodologies are introduced to d...
Purpose: Blast-induced traumatic brain injury (bTBI) is one of the causes of death or permanent inva...
International audienceShear waves that propagate in soft solids, such as the brain, are strongly non...
The influence of nonlinearities on the propagation of stress waves through soft tissues is currently...
Nonlinear evolution of shear waves into shocks in incompressible elastic materials is investigated u...
Blast waves generated by improvised explosive devices can cause mild, moderate to severe traumatic b...
Finite Element (FE) head models are often used to understand mechanical response of the head and its...
In this paper, an analytical study is made for the dynamic behavior of human brain tissue under tran...
To develop protective measures for crash situations, an accurate assessment of injury risk is requir...
A biomechanical model for traumatic brain injury and soft tissue damage is presented. A variational ...
Blast injury has been a threat on the battle field, a threat to civilians from acts of terrorism, an...
Traumatic brain injury (TBI) has become a significant public health concern. However, despite decade...
This paper considers the propagation of neurological shock-waves in the human head due to improvised...
Mechanical characterization of brain tissue at high loading velocities is particularly important for...
In this dissertation, theoretical, computational, and experimental methodologies are introduced to d...
Purpose: Blast-induced traumatic brain injury (bTBI) is one of the causes of death or permanent inva...
International audienceShear waves that propagate in soft solids, such as the brain, are strongly non...
The influence of nonlinearities on the propagation of stress waves through soft tissues is currently...
Nonlinear evolution of shear waves into shocks in incompressible elastic materials is investigated u...
Blast waves generated by improvised explosive devices can cause mild, moderate to severe traumatic b...
Finite Element (FE) head models are often used to understand mechanical response of the head and its...
In this paper, an analytical study is made for the dynamic behavior of human brain tissue under tran...
To develop protective measures for crash situations, an accurate assessment of injury risk is requir...
A biomechanical model for traumatic brain injury and soft tissue damage is presented. A variational ...
Blast injury has been a threat on the battle field, a threat to civilians from acts of terrorism, an...
Traumatic brain injury (TBI) has become a significant public health concern. However, despite decade...
This paper considers the propagation of neurological shock-waves in the human head due to improvised...
Mechanical characterization of brain tissue at high loading velocities is particularly important for...
In this dissertation, theoretical, computational, and experimental methodologies are introduced to d...
Purpose: Blast-induced traumatic brain injury (bTBI) is one of the causes of death or permanent inva...