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Advanced Engineering Materials

Fichtner, M. (2005). Nanotechnological aspects in materials for hydrogen storage review. Advanced Engineering Materials, 7 (6), 443 455. [Pg.321]

A panel of experts from academia and industry (Table 12.4-2) was assembled to provide the students with professional advice. The HKUST central facilities for Material Characterization and Preparation Facility (MCPF) and Advanced Engineering Material Facility (AEMF) and the laboratories of Department of Chemical Engineering, Department of Industrial Engineering and Engineering Management, Department of Mechanical Engineering and Advanced Technology Center play a pivotal role in the success of the project. Table 12.4-3 lists the equipment used by the students in this project. [Pg.352]

Powder-based ceramic meso- and microscale fabrication processes. Advanced Engineering Materials, 15, 1237-1245. [Pg.17]

Domheim M, Eigen N, Barkhordarian G, Klassen T, Bormann R, (2006). Tailoring hydrogen storage materials towards application. Advanced Engineering Materials 8(5) 377-385... [Pg.76]

Figure 1.9 is reprinted from Advanced Engineering Materials, Vol. 4, F Christin, Design, fabrication, and application of thermostructural composites (TSC) like C/C, C/SiC, and SiC/SiC composites, pp. 903-912,2002, with permission from Wiley - VCH. [Pg.321]

Emerging technology interdisciplinary, glamorous research area Advanced engineering materials... [Pg.37]

Graetz, J. and Reilly, J.J., Nanoscale energy storage materials produced by hydrogen-driven metallmgical reactions. Advanced Engineering Materials, 2005, 7(7) p. 597-601. [Pg.350]

Mechanical Alloying for Pabrication of Advanced Engineering Materials... [Pg.1050]

R. Danzer, T. Lube, P. Supancic, and R. Damani, Fracture of Ceramics, Advanced Engineering Materials, 10,275-298, (2008). [Pg.14]

The extraordinary mechanical, thermal and electrical properties of carbon nanotubes (CNT) have prompted intense research into a wide range of applications in structural materials, electronics, and chemical processing.Attempts have been made to develop advanced engineering materials with improved or novel properties through the incorporation of carbon nanotubes in selected matrices (polymers, metals and ceramics). But the use of carbon nanotubes to reinforce ceramic composites has not been very successful. So far, only modest improvements of properties were reported in CNTs reinforced silicon carbide and silicon nitride matrix composites, while a noticeable increase of the fracture toughness and of electrical conductivity has been achieved in CNTs reinforced alumina matrix composites. ... [Pg.259]

T. Donnelly, J. UUsperger, A. Hartmann, W. Computing fibers - a novel fiber for intelligent fabrics. Advanced Engineering Materials 5 (2003) no. 9, pp. 682-687... [Pg.455]

Heiber, J. Clemens, F. Graule, T. Hiilsenberg, D., Thermoplastic extrusion to highly-loaded thin green fibres containing Pb(Zr,Ti)03 , Advanced Engineering Materials 7 [5] 2005,404-408... [Pg.455]

Abetz, V. et al.. Developments in membrane research From material via process design to industrial application. Advanced Engineering Materials, 2006. 8(5) 328-358. [Pg.502]

S. P. Nunes, K.-V. Peinemann, Poly-imide asymmetric membranes for hydrogen separation influence of formation conditions on gas transport properties. Submitted to Advanced Engineering Materials. [Pg.88]

Volkmer, E., Hoffmann, B., Kokott, A. et al. (2009) A short-term bioresorbable bone fiUing material based on hydroxyapatite, chitosan, and oxidized starch tested in a novel orthotopic meta physeal mouse model. Advanced Engineering Materials, 4, B114-B121. [Pg.83]

During the last sixty years, there have been a number of major scientific revolutions, revolutions that have changed the face of science and allowed for the development of major new commercial opportunities. Four of the most important scientific revolutions are understanding the nature of atoms and molecules, the computer, biotechnology, and advanced engineering materials. [Pg.54]

Similar to most advanced engineering materials, transparent ceramic laser materials also have various requirements for practical appUcations. The fabrication and processing process should be reliable, consistent, feasible, reproducible, energy saving, cost-effective, and scalable. More importantly, the compositions, both the main components and the dopants, must be under good control. [Pg.13]

MECHANICAL ALLOYING FOR FABRICATION OF ADVANCED ENGINEERING MATERIALS by M. Sherif El-Eskandarany... [Pg.459]

Y. Brechet, J.Y CavaiUe, E. Chabert, L. Chazeau, R. Dendievel, L. Flandin, C. Gauthier, Polymer based nanocomposites effect of flUer-flller and filler-matrix interactions. Advanced Engineering Materials 3 (2001) 571-577. [Pg.236]

See other pages where Advanced Engineering Materials is mentioned: [Pg.36]    [Pg.353]    [Pg.289]    [Pg.251]    [Pg.41]    [Pg.200]    [Pg.342]    [Pg.120]    [Pg.120]    [Pg.567]    [Pg.371]    [Pg.32]    [Pg.740]    [Pg.159]    [Pg.334]    [Pg.840]    [Pg.199]    [Pg.344]    [Pg.54]    [Pg.55]    [Pg.147]    [Pg.147]    [Pg.122]    [Pg.80]    [Pg.399]    [Pg.163]    [Pg.163]    [Pg.346]    [Pg.188]    [Pg.412]   
See also in sourсe #XX -- [ Pg.55 ]



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