5 edition of Metastable, mechanically alloyed and nanocrystalline materials found in the catalog.
Published
2000
by Trans Tech Publications Ltd. in Uetikon-Zuerich, Switzerland, Enfield, NH
.
Written in
Edition Notes
Includes bibliographical references and indexes.
Other titles | ISMANAM-99. |
Statement | editors, J. Eckert, H. Schlörb, L. Schultz. |
Genre | Congresses. |
Series | Materials science forum -- v. 343-346. |
Contributions | Eckert, J., Schlörb, H., Schultz, L. |
The Physical Object | |
---|---|
Pagination | 2 v. (xxi, 990 p.) : |
Number of Pages | 990 |
ID Numbers | |
Open Library | OL21745069M |
ISBN 10 | 0878498583 |
OCLC/WorldCa | 44614557 |
We employed a high-energy ball mill for the synthesis of nanograined Ti{sub 55}C{sub 45} powders starting from elemental Ti and C powders. The mechanically induced self-propagating reaction that occurred between the reactant materials was monitored via a gas atmosphere gas-temperature-monitoring system. Although originally developed to produce oxide dispersion strengthened superalloys, the technique has been later shown to be capable of producing a variety of metastable phases including nanocrystalline materials. The present article describes the synthesis of nanocrystalline materials and nanocomposites by mechanical faburrito.com: Challapalli Suryanarayana.
Peter Schumacher is the author of Biophysical Therapy of Allergies ( avg rating, 1 rating, 0 reviews, published ), De Minderheden - vreem /5(2). Structural Characterization and Ordering Transformation of Mechanically Alloyed Nanocrystalline FeAl Powder Lima Amiri Talischi1, Ahad Samadi*2 1Department of Materials Engineering, Sahand University of Technology, faburrito.com , Tabriz, Iran. Recieved: 11 May ; Accepted: 19 Cited by: 1. Amorphous-nanocrystalline alloys are a relatively new class of materials born from the rapid development of new technologies and different methods of producing amorphous and nanocrystalline powders and films, compacting, melt quenching, megaplastic deformation, implantation, laser, plasma, and other high-energy methods.
Thermal stability and grain growth behavior of mechanically alloyed nanocrystalline Fe‐Cu alloys Journal of Applied Physics 73, phase separation, and grain growth of the metastable nanocrystalline solid solutions. in Smithells Metals Reference Book, 6th ed., Cited by: The evolution of crystalline precursors during the formation of Al-Cu-Fe quasicrystalline intermetallics in mechanically alloyed powders, presented at ISMANAM, Oxford; Metastable, Mechanically Alloyed and Nanocrystalline Materials, Ismanam . Jan 31, · Nanocrystalline alloys often show exceptional thermal stability as a consequence of kinetic and thermodynamic impediments to grain growth. However, evaluating the various contributions to stability requires detailed investigation of the solute distribution, which is challenging within the fine structural-length-scales of nanocrystalline faburrito.com by:
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SyntaxTextGen not activatedKazutaka Fujita 1), Tetsuro Pdf 2), Wei Zhang 3), Nobuyuki Nishiyama 4), Chaoli Ma 5), Hisamichi Kimura 3), Pdf Inoue 3). 1) Department of Mechanical Engineering, Ube National Collge of Technology 2) Advanced Production System Engineering Course, Ube National College of Terchnology 3) Institute for Materials Research, Tohoku University 4) RIMCOF, Tohoku University Laboratory 5 Cited by: @article{osti_, title = {Novel thermal properties of nanostructured materials.}, author = {Eastman, J.
Download pdf, abstractNote = {A new class of heat transfer fluids, termed nanofluids, has been developed by suspending nanocrystalline particles in liquids. Due to the orders-of-magnitude larger thermal conductivities of solids compared to those of liquids such as water, significantly enhanced Cited by: pre-alloyed powders, oxides, ebook, etc) are milled to achieve alloys or composite materials [7–9].
These techniques allow producing non-equilibrium structures/microstructures including amorphous alloys, extended solid solutions, metastable crystalline phases, nanocrystalline materials and quasi crystals [9 .