FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2896050657> ?p ?o ?g. }

• W2896050657 endingPage "263" @default.
• W2896050657 startingPage "244" @default.
• W2896050657 abstract "Soft materials that can undergo rapid and large deformation through the remote and wireless action of external stimuli offer a range of tantalizing applications such as soft robots, flexible electronics, and biomedical devices. A natural and simple embodiment of such materials is to embed magnetic particles in soft polymers. Unfortunately, existing magnetically responsive soft materials such as magnetorheological elastomers and ferrogels typically use magnetically-soft particles such as iron and iron oxides, which are characterized by the low coercivity and hence lack the capability to retain remnant magnetism. Accordingly, their deformation is limited to simple elongation or shortening, rendering these materials substantially unsuited for the complex transformations required in many applications. To introduce shape-programmability, magnetically-hard particles with high coercivity have been incorporated in mechanically soft materials. In addition, recent works aimed at ameliorating this situation have developed fabrication techniques and facile routes to engineer rapid and complex transformations in a programmable manner by introducing intricate patterns of magnetic polarities in soft materials. The resulting structures, when properly designed, have been shown to exhibit a diverse and rich array of actuation behavior. In this work, we develop a suitable theoretical framework to analyze these so-called hard-magnetic soft materials to facilitate the rational design of magnetically activated functional structures and devices based on a quantitative prediction of complex shape changes. We adopt a nonlinear field theory to describe the finite deformation coupled with magnetic fields and argue that the macroscopic behavior of the fabricated materials requires a new constitutive classification — ideal hard-magnetic soft material — which assumes that (i) the material has a residual magnetic flux density, and (ii) the induced magnetic flux density exhibits a linear relation with the applied actuating magnetic field. We implement the theory and constitutive law in a finite-element framework and find remarkable agreement between the simulation and experimental results on various deformation modes of hard-magnetic soft materials. Using the developed (and validated) model, we present a set of illustrative examples to highlight the use of our model-based simulation to guide the design of experimentally realizable complex shape-morphing structures based on hard-magnetic soft materials." @default.
• W2896050657 created "2018-10-26" @default.
• W2896050657 creator A5006142151 @default.
• W2896050657 creator A5010266407 @default.
• W2896050657 creator A5023656879 @default.
• W2896050657 creator A5055372975 @default.
• W2896050657 creator A5087735090 @default.
• W2896050657 date "2019-03-01" @default.
• W2896050657 modified "2023-10-18" @default.
• W2896050657 title "Mechanics of hard-magnetic soft materials" @default.
• W2896050657 cites W1627496055 @default.
• W2896050657 cites W1965709657 @default.
• W2896050657 cites W1977336294 @default.
• W2896050657 cites W1995082860 @default.
• W2896050657 cites W1999444474 @default.
• W2896050657 cites W2018668760 @default.
• W2896050657 cites W2027119152 @default.
• W2896050657 cites W2028524240 @default.
• W2896050657 cites W2031096930 @default.
• W2896050657 cites W2032293140 @default.
• W2896050657 cites W2038790456 @default.
• W2896050657 cites W2048279800 @default.
• W2896050657 cites W2049508590 @default.
• W2896050657 cites W2053669933 @default.
• W2896050657 cites W2054662898 @default.
• W2896050657 cites W2065886765 @default.
• W2896050657 cites W2074206687 @default.
• W2896050657 cites W2075246802 @default.
• W2896050657 cites W2081808341 @default.
• W2896050657 cites W2082488954 @default.
• W2896050657 cites W2083022368 @default.
• W2896050657 cites W2086358727 @default.
• W2896050657 cites W2090475853 @default.
• W2896050657 cites W2091528481 @default.
• W2896050657 cites W2096726440 @default.
• W2896050657 cites W2115096491 @default.
• W2896050657 cites W2122676155 @default.
• W2896050657 cites W2128329296 @default.
• W2896050657 cites W2141541602 @default.
• W2896050657 cites W2144946541 @default.
• W2896050657 cites W2150437891 @default.
• W2896050657 cites W2153417898 @default.
• W2896050657 cites W2157077552 @default.
• W2896050657 cites W2159343405 @default.
• W2896050657 cites W2181330169 @default.
• W2896050657 cites W2414211516 @default.
• W2896050657 cites W2526011581 @default.
• W2896050657 cites W2739581598 @default.
• W2896050657 cites W2785110060 @default.
• W2896050657 cites W2805926569 @default.
• W2896050657 cites W4231516524 @default.
• W2896050657 doi "https://doi.org/10.1016/j.jmps.2018.10.008" @default.
• W2896050657 hasPublicationYear "2019" @default.
• W2896050657 type Work @default.
• W2896050657 sameAs 2896050657 @default.
• W2896050657 citedByCount "275" @default.
• W2896050657 countsByYear W28960506572019 @default.
• W2896050657 countsByYear W28960506572020 @default.
• W2896050657 countsByYear W28960506572021 @default.
• W2896050657 countsByYear W28960506572022 @default.
• W2896050657 countsByYear W28960506572023 @default.
• W2896050657 crossrefType "journal-article" @default.
• W2896050657 hasAuthorship W2896050657A5006142151 @default.
• W2896050657 hasAuthorship W2896050657A5010266407 @default.
• W2896050657 hasAuthorship W2896050657A5023656879 @default.
• W2896050657 hasAuthorship W2896050657A5055372975 @default.
• W2896050657 hasAuthorship W2896050657A5087735090 @default.
• W2896050657 hasBestOaLocation W28960506571 @default.
• W2896050657 hasConcept C115260700 @default.
• W2896050657 hasConcept C119599485 @default.
• W2896050657 hasConcept C121332964 @default.
• W2896050657 hasConcept C126530901 @default.
• W2896050657 hasConcept C127413603 @default.
• W2896050657 hasConcept C138331895 @default.
• W2896050657 hasConcept C154945302 @default.
• W2896050657 hasConcept C155672457 @default.
• W2896050657 hasConcept C159985019 @default.
• W2896050657 hasConcept C171250308 @default.
• W2896050657 hasConcept C192562407 @default.
• W2896050657 hasConcept C197162081 @default.
• W2896050657 hasConcept C204366326 @default.
• W2896050657 hasConcept C26873012 @default.
• W2896050657 hasConcept C2776058767 @default.
• W2896050657 hasConcept C2781196758 @default.
• W2896050657 hasConcept C2982836594 @default.
• W2896050657 hasConcept C38052585 @default.
• W2896050657 hasConcept C41008148 @default.
• W2896050657 hasConcept C42360764 @default.
• W2896050657 hasConcept C48620588 @default.
• W2896050657 hasConcept C59789625 @default.
• W2896050657 hasConcept C62520636 @default.
• W2896050657 hasConcept C78519656 @default.
• W2896050657 hasConcept C87023908 @default.
• W2896050657 hasConcept C90509273 @default.
• W2896050657 hasConceptScore W2896050657C115260700 @default.
• W2896050657 hasConceptScore W2896050657C119599485 @default.
• W2896050657 hasConceptScore W2896050657C121332964 @default.
• W2896050657 hasConceptScore W2896050657C126530901 @default.

• next