Measuring knife stab penetration into skin simulant using a novel biaxial tension device

Abstract: This paper describes the development and use of a biaxial measurement device to analyse the mechanics of knife stabbings. In medicolegal situations it is typical to describe the consequences of a stabbing incident in relative terms that are qualitative and descriptive without being numerically quantitative. Here, the mechanical variables involved in the possible range of knife-tissue penetration events are considered so as to determine the necessary parameters that would need to be controlled in a measurement … Show more

“…While at quasi-static speeds the influence of velocity was found to be insignificant in [8], here, where the test speeds were comparable to the maximum and mean velocities attainable during a stabbing incident [12,10], a clear effect can be seen when increasing the velocity. The decrease in penetration force between the quasi-static case and 1 m/s is due to the effects of viscoelasticity whereby the skin behaves stiffer at higher velocities.…”

“…Open-cell polyethylene foam of density 35kg/m 3 was placed below the target material to ensure that it did not deform nor vibrate excessively, which would not be representative of a reallife scenario. Open-cell polyethylene foam has previously been found to be a suitable surrogate material [10,11,8] and this density is close to that used by [10] and by [11].…”

“…The biaxial tension device and blade holder are illustrated in Fig. 1 [8]. The device is designed in such a way that the test material can be held in biaxial tension by adjusting the lead screws of the clamping mechanism.…”

“…in particular those of [8] who found that of the three blades used (cook's, carving and utility knife), the cook's knife had the highest penetration force and the utility knife had the lowest. Comparing the penetration force of the blades, to the non-blade implements, we see that these much blunter objects can exceed 300% the penetration force of a sharp blade.…”

“…Typically these studies use customized instrumented knives, where the stab-penetration test is performed by a volunteer holding the blade [3,4,5,6]. An alternative technique, which is used here, is to attach an instrumented blade to a machine which drives the stabbing motion [7,8], offering greater control over a range of test variables. In this study, the data obtained through experimentation has been used to develop a finite element model of stab penetration.…”

A combined experimental and numerical study of stab-penetration forces

“…While at quasi-static speeds the influence of velocity was found to be insignificant in [8], here, where the test speeds were comparable to the maximum and mean velocities attainable during a stabbing incident [12,10], a clear effect can be seen when increasing the velocity. The decrease in penetration force between the quasi-static case and 1 m/s is due to the effects of viscoelasticity whereby the skin behaves stiffer at higher velocities.…”

“…Open-cell polyethylene foam of density 35kg/m 3 was placed below the target material to ensure that it did not deform nor vibrate excessively, which would not be representative of a reallife scenario. Open-cell polyethylene foam has previously been found to be a suitable surrogate material [10,11,8] and this density is close to that used by [10] and by [11].…”

“…The biaxial tension device and blade holder are illustrated in Fig. 1 [8]. The device is designed in such a way that the test material can be held in biaxial tension by adjusting the lead screws of the clamping mechanism.…”

“…in particular those of [8] who found that of the three blades used (cook's, carving and utility knife), the cook's knife had the highest penetration force and the utility knife had the lowest. Comparing the penetration force of the blades, to the non-blade implements, we see that these much blunter objects can exceed 300% the penetration force of a sharp blade.…”

“…Typically these studies use customized instrumented knives, where the stab-penetration test is performed by a volunteer holding the blade [3,4,5,6]. An alternative technique, which is used here, is to attach an instrumented blade to a machine which drives the stabbing motion [7,8], offering greater control over a range of test variables. In this study, the data obtained through experimentation has been used to develop a finite element model of stab penetration.…”

A combined experimental and numerical study of stab-penetration forces

Mechanical Trauma and Classification of Wounds

Mechanical Trauma and Classification of Wounds