Reticulated Replica Ceramic Foams: Processing, Functionalization, and Characterization

Fey, Tobias; Betke, Ulf; Rannabauer, Stefan; Scheffler, Michael

doi:10.1002/adem.201700369

Cited by 83 publications

(38 citation statements)

References 92 publications

(136 reference statements)

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“…Thus, the sintered ceramic foams represent a replica of the initial template foam. It should be noted that the struts of the replica foams are hollow because of the burn‐out of the template structure …”

Section: Introductionmentioning

confidence: 99%

“…If the specific surface area may be increased, the spectrum of possible applications may be expanded. Due to increased specific surface area and enhanced radiative transport properties, new tasks in the field of catalyst support or in high temperature applications can be opened . To increase the effective surface area the foams can be coated with a high surface area washcoat .…”

Section: Introductionmentioning

confidence: 99%

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Hierarchical‐Porous Ceramic Foams by a Combination of Replica and Freeze Technique

Schelm

Fey²,

Dammler

et al. 2019

Adv Eng Mater

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Open-porous alumina foams with additional strut porosity are fabricated by a two-step sponge-replication based manufacturing process. As the first step, open cellular ceramic foams are prepared following the Schwarzwalder sponge replication technique. Therefore, organic foam templates are coated with different aqueous alumina slurries with a solid load between 20 and 40 vol% In a second step, an additional porosity is generated inside the foam struts by freezing of the foams at temperatures between À196 and À20 C and subsequent sublimation drying. The hierarchical structure of both, cell pores and strut pores in the freeze-dried material remains intact after drying, template removal, and sintering. Size, connectivity, and morphology of the strut pores strongly depend on the solid load of the alumina slurry and on the freezing temperature. Cellular structures with a strut porosity between 50% and 60% and a total porosity exceeding 90% are prepared, which show a compressive strength in between 0.4 to 0.6 MPa. Due to the additional strut porosity, the specific surface area of freeze-dried replica foams increases from 70 cm 2 g À1 for conventionally prepared foams to 200 cm 2 g À1 for freeze-dried foams, respectively.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Hierarchical‐Porous Ceramic Foams by a Combination of Replica and Freeze Technique

Schelm

Fey²,

Dammler

et al. 2019

Adv Eng Mater

Self Cite

View full text Add to dashboard Cite

show abstract

“…is results in a macrocellular foam-like structure similar to that of the polymeric sponge used as template in this process. A variety of cellular ceramic materials has been produced by this technique, an overview can be found in references [3,4]. However, to our knowledge, no zinc oxide foams have been prepared by the sponge replication process yet.…”

Section: Introductionmentioning

confidence: 99%

Reticulated Open-Celled Zinc Oxide Ceramic Foams: Manufacturing, Microstructure, Mechanical, and Thermal Properties

Betke

Scheffler

2019

Advances in Materials Science and Engineering

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Open-celled zinc oxide ceramic foams were prepared by the polymer sponge replication (Schwartzwalder) technique from aqueous ZnO dispersions with Sb2O3 and Bi2O3 as sintering additives, and mechanically stable ZnO foams with an average porosity of 93.6% were obtained. Their microstructure consists of ZnO grains with a Bi-containing grain boundary phase together with a Zn-Sb-O secondary phase with spinel structure. The obtained ZnO ceramic foams were characterized with respect to their morphology by computed tomography; in addition, the compressive strength and the thermal conductivity were determined, and the data were applied for modelling of the mechanical and thermal properties of the bulk ZnO strut material.

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“…Among the various types of porous ceramics, reticulated porous ceramics have well-defined open pore structures, whose porosity is generally above 90%. Therefore, reticulated porous ceramics [2] are prepared using various types of ceramics that are laid in an extreme edge of the advantages of porous ceramics.…”

Section: Introductionmentioning

confidence: 99%

Preparation and Characterization of a Low-Cost and Natural Material-Based Reticulated Porous Diatomite-Kaolin Composite

Lee

Song

et al. 2020

Applied Sciences

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In recent years, porous ceramics have been increasingly developed owing to their high levels of high-temperature stability and chemical stability. These properties are far superior to porous polymers and porous metals. As a representative porous ceramic, reticulated porous ceramics have been fabricated for several decades owing to their overwhelmingly high porosity, which is usually above 90%. There are growing concerns about the environmental problems. However, the data on the preparation of low-cost and natural material-based reticulated porous ceramics are not enough. Therefore, the authors studied the preparations and characterizations of reticulated porous ceramics prepared using diatomite and kaolin, and compared them to typical reticulated porous alumina. The obtained data were used to determine whether the reticulated porous diatomite-kaolin composite can be practically used in non-hard loading conditions. The structural properties and dielectric breakdown strength of the reticulated porous ceramics were examined using scanning electron microscopy, mercury porosimetry, μ-computed tomography (CT), and standard test apparatus of dielectric breakdown voltage.

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Reticulated Replica Ceramic Foams: Processing, Functionalization, and Characterization

Cited by 83 publications

References 92 publications

Hierarchical‐Porous Ceramic Foams by a Combination of Replica and Freeze Technique

Hierarchical‐Porous Ceramic Foams by a Combination of Replica and Freeze Technique

Reticulated Open-Celled Zinc Oxide Ceramic Foams: Manufacturing, Microstructure, Mechanical, and Thermal Properties

Preparation and Characterization of a Low-Cost and Natural Material-Based Reticulated Porous Diatomite-Kaolin Composite

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