Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Purpose: The paper presents studies on the structure intended to form a heat exchange element made of sintered porous Cu. Design/methodology/approach: Analyses of Cu foam exhibiting a cellular structure have been carried out using X-ray tomography. Findings:Samples of copper foam have been imaged at high resolution using a large-field, 3D micro-focus X-ray computed tomography (μCT) system, three-dimensional image blocks derived from the scans were examined as cross-sections along orthogonal planes and as perspective images, maneuvered to be viewed from any angle. Research limitations/implications: This work presents methods for obtaining pore size distributions for both the micro-pores and their interconnects. It‘s a matter of great significance for recognition of real structure of sintered porous elements and it’s utility mainly as heat transfer. Originality/value: The proposed X-ray method appears to be an excellent tool for determining the 3D structure of the sintered Cu foam. It should be used to improve changes detection in the structure of the foam itself, incurred to the effect of changes process appeared during heat transfer operation.
Wydawca
Rocznik
Tom
Strony
67--72
Opis fizyczny
Bibliogr. 15 poz., rys.
Twórcy
autor
- Kielce University of Technology, Al. Tysiąclecia PP 7, 25-314 Kielce, Poland
Bibliografia
- [1] M.F. Ashby, A.G. Evans, N.A. Fleck, L.J. Gibson, J.W. Hutchinson, H.N.G. Wadley, Metal Foams: A Design Guide, Buterworth-Heineman, 2000.
- [2] É. Maire, J. Adrien, C. Petit, Structural characterization of solid foams, C.R. Physique 2014 (in press).
- [3] H. Park, K. Mirwa, X-ray Tomography for Micro Porosity in AZ91D Alloy, Materials Transactions 4/11 (2003) 2326-2333.
- [4] A. Etimble, J. Adrien, E. Maire, H. Idrissi, D. Reyter, L. Rouè, 3D morphological analysis of copper foams as current collectors for Li-ion batteries by means of X-ray tomography, Materials Science and Engineering B 187 (2014) 1-8.
- [5] M. Saadatfar, F. Garcia-Moreno, S. Hutzler, A.P. Sheppard, M.A. Knackstedt, J. Banhart, D. Weaire, Imaging of metallic foams using X-ray micro-CT, Colloids and Surfaces A: Physicochemical Engineering Aspects 344 (2009) 107-112.
- [6] J. Bock, A.M. Jacobi, Geometric classification of open-cell metal foams using X-ray micro-computed tomography, Materials Characterization 75 (2013) 35-43.
- [7] A. Vabre, S. Legoupil, F. Buyens, O. Gal, R. Riva, O. Gerbaux, A. Memponteil, Metallic foams characterization with X-ray microtomography using Medipix2 detector, Nuclear Instruments and Methods in Physics Research A 576 (2007) 169-172.
- [8] S. Calvo, D. Beugre, M. Crine, A. Léonard, P. Marchot, D. Toye, Phase distribution measurements in metallic foam packing using X-ray radiography and micro-tomography, Chemical Engineering and Processing 48 (2009) 1030-1039.
- [9] P. Iassonov, T. Gebrenegus, M. Tuller, Segmentation of X-ray computed tomography images of porous materials: A crucial step for characterization and quantitative analysis of pore structures, Water Resources Research 45/9 (2009) W09415.
- [10] M.L. Turner, L. Knu-ng, C.H. Arns, A. Sakellariou, T.J. Senden, A.P. Sheppard, R.M. Sok, A. Limaye, W.V. Pinczewski, M.A. Knackstedt, Three-dimensional imaging of multiphase flow in porous media, Physica A 339 (2004) 166-172.
- [11] M. Piasecka, Laser texturing, spark erosion and sanding of the surfaces and their practical applications in heat exchange devices, Advanced Material Research (in print).
- [12] M. Piasecka, Heat transfer mechanism, pressure drop and flow patterns during FC-72 flow boiling in horizontal and vertical minichannels with enhanced walls, International Journal of Heat and Mass Transfer 66 (2013) 472-488.
- [13] M. Piasecka, Flow boiling heat transfer in a minichannel with enhanced heating surface Heat Transfer Engineering (in print).
- [14] T.M. Wójcik, Experimental investigations of boiling heat transfer hysteresis on sintered, metal-fibrous porous structures, Experimental Thermal and Fluid Science 33 (2009) 397-404.
- [15] R. Chatys, W. Depczyński, W. Żórawski, A process for preparing porous structures, The Polish Patent No. 199720 (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-bf226bb5-8b5d-4bcb-b80d-e173b01611b7