J
Jordan R. Raney
Researcher at University of Pennsylvania
Publications - 72
Citations - 2766
Jordan R. Raney is an academic researcher from University of Pennsylvania. The author has contributed to research in topics: Carbon nanotube & Metamaterial. The author has an hindex of 19, co-authored 61 publications receiving 1883 citations. Previous affiliations of Jordan R. Raney include Wyss Institute for Biologically Inspired Engineering & Harvard University.
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Journal ArticleDOI
Multistable Architected Materials for Trapping Elastic Strain Energy
Sicong Shan,Sung Hoon Kang,Sung Hoon Kang,Jordan R. Raney,Jordan R. Raney,Pai Wang,Lichen Fang,Francisco Candido,Jennifer A. Lewis,Jennifer A. Lewis,Katia Bertoldi +10 more
TL;DR: 3D printing and numerical analysis are combined to design a new class of architected materials that contain bistable beam elements and exhibit controlled trapping of elastic energy.
Journal ArticleDOI
Hybrid 3D Printing of Soft Electronics.
Alexander D. Valentine,Travis Alexander Busbee,John William Boley,Jordan R. Raney,Alex Chortos,Arda Kotikian,John D. Berrigan,Michael F. Durstock,Jennifer A. Lewis +8 more
TL;DR: Hybrid 3D printing is a new method for producing soft electronics that combines direct ink writing of conductive and dielectric elastomeric materials with automated pick-and-place of surface mount electronic components within an integrated additive manufacturing platform.
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Stable propagation of mechanical signals in soft media using stored elastic energy.
Jordan R. Raney,Neel Nadkarni,Chiara Daraio,Chiara Daraio,Dennis M. Kochmann,Jennifer A. Lewis,Katia Bertoldi +6 more
TL;DR: A nonlinear soft system that is able to propagate large-amplitude signals over arbitrary distances without any signal degradation is demonstrated, made use of bistable beams to store and then release elastic energy along the path of the wave, balancing both dissipative and dispersive effects.
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Rotational 3D printing of damage-tolerant composites with programmable mechanics.
Jordan R. Raney,Jordan R. Raney,Brett G. Compton,Brett G. Compton,Jochen Mueller,Thomas J. Ober,Kristina Shea,Jennifer A. Lewis +7 more
TL;DR: A rotational 3D printing method that enables exquisite control of fiber orientation within engineered composites and broadens the design, microstructural complexity, and performance space for fiber-reinforced composites through site-specific optimization of their fiber orientation, strain, failure, and damage tolerance.
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Architected Lattices with High Stiffness and Toughness via Multicore–Shell 3D Printing
TL;DR: It is found that architected lattices produced with a flexible core-elastomeric interface-brittle shell motif exhibit both high stiffness and toughness.