2019
DOI: 10.1016/j.actamat.2019.05.003
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Freeze casting of iron oxide subject to a tri-axial nested Helmholtz-coils driven uniform magnetic field for tailored porous scaffolds

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Cited by 30 publications
(43 citation statements)
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“…The well aligned cell walls generated by the magnetic field as well as the chitosan bridges that form pillar‐like supports for the cell walls enhance the mechanical performance of the Sendust‐chitosan composite in a similar fashion as previously reported for alumina composites with a nacre‐like structure, [ 23,47 ] in that case generated by freeze casting in the absence of a magnetic field. Comparing our freeze‐cast magnetic flake composites with surface‐magnetized flake‐based materials that were first freeze cast in a magnetic field and then sintered, [ 11,13,16,18 ] we note a superior property enhancement of a factor of 4 in both modulus and strength.…”
Section: Discussionmentioning
confidence: 99%
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“…The well aligned cell walls generated by the magnetic field as well as the chitosan bridges that form pillar‐like supports for the cell walls enhance the mechanical performance of the Sendust‐chitosan composite in a similar fashion as previously reported for alumina composites with a nacre‐like structure, [ 23,47 ] in that case generated by freeze casting in the absence of a magnetic field. Comparing our freeze‐cast magnetic flake composites with surface‐magnetized flake‐based materials that were first freeze cast in a magnetic field and then sintered, [ 11,13,16,18 ] we note a superior property enhancement of a factor of 4 in both modulus and strength.…”
Section: Discussionmentioning
confidence: 99%
“…A novel and highly promising approach for the manufacture of low loss magnetic composites with highly aligned flakes is freeze‐casting. [ 11–19 ] Freeze casting, also termed ice‐templating, is based on the directional solidification of water‐based particle slurries. [ 20–24 ] Initially, the process was shown to produce highly aligned, nacre‐like microstructures with alumina platelets in a polymer binder.…”
Section: Introductionmentioning
confidence: 99%
“…1a). This setup, the construction of which has been previously described, 21,22 has been shown to apply a uniform magnetic field and, therefore, create homogenous porous structures (i.e., eliminate particle agglomeration). 21,28 This setup has also been shown to allow for the magnetic field to be controlled, thus pointing in any direction and/or moving in any direction during the freezing process.…”
Section: Tri-axial Nested Helmholtz Coils-based Freeze-casting Setupmentioning
confidence: 99%
“…21,28 This setup has also been shown to allow for the magnetic field to be controlled, thus pointing in any direction and/or moving in any direction during the freezing process. 22 Examples of the magnetic field aligning particles in the 3 coordinate directions are shown in Fig. 1b-d.…”
Section: Tri-axial Nested Helmholtz Coils-based Freeze-casting Setupmentioning
confidence: 99%
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