Je soutiendrai demain 24 juin ma thèse de doctorat à Jussieu, amphi 55A à 14h, ouverte à tous. Il y aura une retransmission via Zoom -- lien sur demande !
Poster pour la confΓ©rence Functionality through Nonlinearity comme illustration
23.06.2025 20:35 β π 3 π 0 π¬ 1 π 0
Asymmetric bending boundary layer: The Ξ»-test | PNAS
We investigate the mechanics of two asymmetric ribbons bound at one end and pulled
apart at the other ends. We characterize the elastic junction ne...
Last insight: when we design objects under tension such as inflatables we often disregard bending stiffness under the assumption of large tensile stress. But this junction angle is constant and very much macroscopic! Bending stiffness matters regardless of the loading!
www.pnas.org/doi/10.1073/...
17.03.2025 16:17 β π 1 π 0 π¬ 0 π 0
Moreover, we discuss the rotationnal behavior of the junction, there is some cool mechanics with a βuniversalβ behavior in that discussion.
17.03.2025 16:16 β π 0 π 0 π¬ 1 π 0
(bending stiffness is usually, like, really hard to measure precisely for thin/complex membranes and sheets)
17.03.2025 16:15 β π 0 π 0 π¬ 1 π 0
Since the shape scales as a function of the tensile force in the system, the junction angle between the two rods does not change regardless of the loading. We show how we can harness this cool property for a precise, purely visual measurement of bending stiffnesses!
17.03.2025 16:14 β π 1 π 0 π¬ 1 π 0
In it, we show how this junction is a combination of two self-similar, classical solutions of Eulerβs Elastica. The shape of this boundary layer is determined by the (a)symmetry of the bending stiffness
17.03.2025 16:14 β π 1 π 0 π¬ 1 π 0
Our article on the junction of slender objects under tension has been published @pmmh-lab.bsky.social! We discuss a cool phenomenon found in numerous systems, from kirigamis, kuttsukigami from @abcroll.bsky.social, and inflatables to more traditional tearing/peeling
www.pnas.org/doi/10.1073/...
17.03.2025 16:13 β π 17 π 4 π¬ 2 π 0
Professor of ship hydrodynamics at TU Delft. I study flow physics, direct and data-driven modelling, & shape-changing vehicles. πβ΅ + π»π + π¦π€
#ESR #velotaf
Coordinatrice du doctorat Γ la DGESIP-DGRI
Professeure ENS Paris Saclay
Chercheuse au LMPS
Physics of plant computation and behavior @ Tel Aviv University.
Art-science - and all that jazz..π±π¬π§ͺπ»πΈπΌ
https://www.merozlab.com/
Assistant professor in Mechanical Engineering
@UHouston. We design programmable materials.
School of Engineering at Brown University, Fluids and Thermal Sciences
sites.brown.edu/harrislab
Science at The Times
My book, about the radio war: https://www.amazon.co.uk/dp/1787634132?ref_=cm_sw_r_apin_dp_NPXKFD6KQ3B2P603N1ZN
physicist @ CNRS & Sorbonne UniversitΓ©, Paris β’ statistical & chemical physics, soft matter, theory & simulations
Geophysics PhD. I like to better understand how our landscapes form and deform, slowly and brutally at times! As climate changes, I do my epsilon as a research scientist @ClarkU to better tackle risks during heavy rains and floodings.
CNRS Researcher, Joint Professor, ESPCI Paris PSL
Chase π¦
π¦ππ¦π¦©π¦ββ¬, make π, drink βοΈ, eat π«. Freezing stuff since 1876 βοΈβ€οΈ.
CNRS research scientist at PMMH lab, @espciparispsl.bsky.social
#physics #fluiddynamics
Home: blog.espci.fr/ramiro/
π¦£: mastodon.xyz/@ramirogodoy
@ramirogodoy@mastodon.xyz
How are biological forms encoded? Group leader at IBDM Marseille, director of Turing Center for living systems (CENTURI). Professor at Collège de France, Paris: Dynamics of living systems
Soft-matter physicist @ McMaster University; cofounder @ MesoMat
Soft, Fluid, Living Matter Lab at Yale SEAS (https://pahlavan.yale.edu/)
Fluid physicist π§π¬ attempting to understand nature π one epsilon more every day, because "Not only is the universe stranger than we imagine, it is stranger than we can imagine." (Sir Arthur Eddingtonπ) https://marin-lab.com + pof.tnw.utwente.nl
Associate Professor at UMD College Park, Department of Mechanical Engineering - playing with fluids, grains, powders and droplets
