Add to ORKGWe study the dynamic response of stretched thin polymeric films following an impact by a rigid sphere. We vary the sphere radius, the impact velocity, and the film tension, and measure the contact time and the maximum deflection of the film during the impact. The response is sensitive to nonlinearities associated with the additional tension provided by the deformation. A physical model at the scaling level is presented. This allows us (i) to understand qualitatively experimental and numerical results and (ii) to present a diagram mapping different possible impact dynamics for membrane systems, which accounts for the interplay between membrane tension, intrinsic modulus, and geometrical factors such as the frame size and the sphere radius
A thin circular film is clamped at the periphery. An external mechanical force is applied to the fil...
The mechanical response of polymeric surfaces to concentrated impact loads is relevant to a range of...
The two-dimensional finite strain constitutive model for membranes is presented; it incorporates str...
We study the axisymmetric impact of a rigid sphere onto an elastic membrane theoretically and experi...
International audienceWe study impacts of a rigid body on a thin elastic sheet floating on a liquid....
International audienceWe study impacts of a rigid body on a thin elastic sheet floating on a liquid....
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
Quantifying deformation and energy d surfaces under localized ee rys titute of Te am, U ember The me...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
A thin circular film is clamped at the periphery. An external mechanical force is applied to the fil...
The mechanical response of polymeric surfaces to concentrated impact loads is relevant to a range of...
The two-dimensional finite strain constitutive model for membranes is presented; it incorporates str...
We study the axisymmetric impact of a rigid sphere onto an elastic membrane theoretically and experi...
International audienceWe study impacts of a rigid body on a thin elastic sheet floating on a liquid....
International audienceWe study impacts of a rigid body on a thin elastic sheet floating on a liquid....
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
We analyse the model problem of rigid, spherical pendula impacting on rubber membranes at different ...
Quantifying deformation and energy d surfaces under localized ee rys titute of Te am, U ember The me...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Cata...
A thin circular film is clamped at the periphery. An external mechanical force is applied to the fil...
The mechanical response of polymeric surfaces to concentrated impact loads is relevant to a range of...
The two-dimensional finite strain constitutive model for membranes is presented; it incorporates str...