Section of a lotus-type porous copper ingot. Reproduced from [2], with
By A Mystery Man Writer
Last updated 17 Jul 2024
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://www.researchgate.net/publication/326509555/figure/fig1/AS:650472239153163@1532096075738/Section-of-a-lotus-type-porous-copper-ingot-Reproduced-from-2-with-permission-from.png)
Download scientific diagram | Section of a lotus-type porous copper ingot. Reproduced from [2], with permission from Elsevier, 2015. from publication: Strongly Orthotropic Open Cell Porous Metal Structures for Heat Transfer Applications | For modern thermal applications, open cell porous metals provide interesting opportunities to increase performance. Several types of cellular metals show an anisotropic morphology. Thus, using different orientations of the structure can boost or destroy the performance in | Sheet Metal, Heat Conduction and Heat Transfer | ResearchGate, the professional network for scientists.
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://exarc.net/sites/default/files/main_133.jpg)
An Experimental Diachronic Exploration of Patination Methodology
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://www.researchgate.net/publication/326509555/figure/fig4/AS:650472239140868@1532096075961/Photography-of-a-AlSi1-short-fiber-structure-made-from-short-metal-fibers-and-b.png)
Photography of (a) AlSi1 short-fiber structure made from short
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://i1.rgstatic.net/ii/profile.image/277700603334664-1443220391538_Q512/Olaf-Andersen.jpg)
Olaf ANDERSEN, Head of Department, PhD
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://www.researchgate.net/publication/249220997/figure/tbl1/AS:668354914316305@1536359637991/Partial-gas-pressure-condition-porosity-and-pore-size-of-lotus-type-porous-iron.png)
Partial gas-pressure condition, porosity and pore size of lotus
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://pub.mdpi-res.com/metals/metals-13-01914/article_deploy/html/images/metals-13-01914-g004.png?1700552552)
Metals, Free Full-Text
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://static.cambridge.org/binary/version/id/urn:cambridge.org:id:binary:20201102182551985-0014:S0884291420001430:S0884291420001430_fig1.png?pub-status=live)
Open-channel metals fabricated by the removal of template wires
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://media.springernature.com/m685/springer-static/image/art%3A10.1007%2Fs42452-018-0079-7/MediaObjects/42452_2018_79_Fig6_HTML.png)
Surface modification of lotus-type porous copper by aluminization
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://media.springernature.com/m685/springer-static/image/art%3A10.1007%2Fs12540-019-00365-5/MediaObjects/12540_2019_365_Fig8_HTML.png)
Pore characteristics of Lotus-Type Porous Copper Fabricated by
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://ars.els-cdn.com/content/image/1-s2.0-S0921509304009669-gr1.jpg)
Sound absorption characteristics of lotus-type porous copper
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://www.researchgate.net/profile/Xiang-Chen/publication/345038520/figure/fig5/AS:1022333137457153@1620754622983/Pore-structure-information-obtained-with-the-help-of-light-illumination-a-schematic_Q320.jpg)
Pore structure information obtained with the help of light
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://pub.mdpi-res.com/technologies/technologies-09-00069/article_deploy/html/images/technologies-09-00069-ag.png?1632377548)
Technologies, Free Full-Text
![Section of a lotus-type porous copper ingot. Reproduced from [2], with](https://www.researchgate.net/publication/320698173/figure/fig2/AS:871630741983232@1584824371269/Maximum-temperature-of-the-solar-module-for-a-PCM-module-thickness-of-50-mm-filled-with_Q320.jpg)
Torsten SEIDEL Fraunhofer-Gesellschaft zur Förderung der
Lotus-Seedpod-Bioinspired 3D Superhydrophobic Diatomite Porous
Recommended for you
You may also like