693.932 PEOPLE
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| Naji, M. |
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| Petrov, R. H. | Madrid |
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Wessling, Matthias
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (35/35 displayed)
- 2024Electro‐Conductive Ti<sub>3</sub>C<sub>2</sub> MXene Multilayered Membranes: Dye Removal and Antifouling Performancecitations
- 2024Tubular and bio-based carbons as binder-free gas diffusion electrodes for heterogeneous electro-Fenton to remove micropollutantscitations
- 2023Tailoring Pore Networks – Gas Diffusion Electrodes via Additive Manufacturingcitations
- 2023Poly(aryl ether ketone) hollow fibers preparation with acid resistant spinneretscitations
- 2022Monolithic SiC supports with tailored hierarchical porosity for molecularly selective membranes and supported liquid-phase catalysiscitations
- 2022Monolithic SiC supports with tailored hierarchical porosity for molecularly selective membranes and supported liquid-phase catalysiscitations
- 2022On the Mixed Gas Behavior of Organosilica Membranes Fabricated by Plasma-Enhanced Chemical Vapor Deposition (PECVD)citations
- 2022Rotating microstructured spinnerets produce helical ridge membranes to overcome mass transfer limitationscitations
- 2022Organosilica coating layer prevents aging of a polymer with intrinsic microporositycitations
- 2020Stimuli-Responsive Zwitterionic Core-Shell Microgels for Antifouling Surface Coatingscitations
- 2020Tubular hollow fibre electrodes for CO2 reduction made from copper aluminum alloy with drastically increased intrinsic porosity
- 2020Steady-state electrochemical synthesis of HKUST-1 with polarity reversalcitations
- 2019High-Throughput Production of Micrometer Sized Double Emulsions and Microgel Capsules in Parallelized 3D Printed Microfluidic Devices
- 2019Layer-by-layer membrane modification allows scandium recovery by nanofiltrationcitations
- 2013Conjugated polymer particles : Towards self-assembling organic photonics
- 2013Challenges and advances in the field of self-assembled membranescitations
- 2012Fabrication of cell container arrays with overlaid surface topographiescitations
- 2012Fabrication of cell container arrays with overlaid surface topographiescitations
- 2012Towards a generic method for inorganic porous hollow fibers preparation with shrinkage-controlled small radial dimensions, applied to Al2O3, Ni, SiC, stainless steel, and YSZcitations
- 2011Hollow fiber ultrafiltration membranes with microstructured inner skincitations
- 2011Porous stainless steel hollow fiber membranes via dry-wet spinningcitations
- 2011Carbon nanofibers in catalytic membrane microreactorscitations
- 2011Thermoforming of film-based biomedical microdevicescitations
- 2011Porous stainless steel hollow fibers with shrinkage-controlled small radial dimensionscitations
- 2010Microstructured hollow fibers for ultrafiltrationcitations
- 2010Shrinkage effects during polmer phase separation on microfabricated moldscitations
- 2010Surface texturing inside ceramic macro/micro channelscitations
- 2010Polymeric microsieves via phase separation microfabricationcitations
- 2009Microcontact Printing of Dendrimers, Proteins, and Nanoparticles by Porous Stampscitations
- 2009Micropatterned polymer films by vapor-induced phase separation using permeable moldscitations
- 2007Morphology and Microtopology of Cation-Exchange Polymers and the Origin of the Overlimiting Currentcitations
- 2006Polymeric microsieves produced by phase separation micromoldingcitations
- 2006Fullerene-modified poly(2,6-dimethyl-1,4-phenylene oxide) gas separation membranes: Why binding is better than dispersing
- 2006Superhydrophobic Surfaces Having Two-Fold Adjustable Roughness Prepared in a Single Stepcitations
- 2005New replication technique for the fabrication of thin polymeric microfluidic devices with tunable porositycitations
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article
Surface texturing inside ceramic macro/micro channels
Abstract
Surface textures (roughness) inside of macro/micro channels have a number of potential uses in advanced ceramic applications, including areas such as bioceramic, cooling, microreactors or friction control. The presented microtemplating method is dealing with templating of structured fibres, which results in formation of variation in surface textures and roughness. Effect of the microtemplate skin texture and ceramic slurry behaviour has been investigated and discussed. Porosity and defects of the microtemplate skin play a key role for roughness/texture of sintered microchannels if their size is larger than the ceramic grain size. The surface roughness inside the micro/macro channel can be easily changed from Ra = 0.8 μm to Ra = 4.9 μm just by changing the microtemplate skin porosity. The results demonstrate possibilities to use this method to tailor surface texture inside microchannels in a one step procedure