Beschreibung
ASM International, Materials Park, Ohio, 1993, Seiten mit zahlreichen Bildern. Gebunden Hardcover.
Recrystallization and High Temperature Properties of a Developmental Ni-Base ODS Superalloy (S. H. Hong, Y-G. Kim, and H.Y. Kim, KAIST, Taejon, Korea, J.M. Poole and J.J. deBarbadillo, Inco Alloys International Inc., Huntington, West Virginia) - Atomic Structure of Mechanically Alloyed Steels (T. S. Chou and H-K. D. H. Bhadeshia, University of Cambridge, Cambridge, England G. McColvin and I. C. Elliott, Inco Alloys Ltd., Hereford, England) - Intermetallics: TiAl 1 - Compaction of Mechanically Alloyed Gamma Titanium Aluminide (C. G. Li and W. H. Yang, Beijing Institute of Aeronautical Materials, Beijing, China, A. Frefer and F. H. Froes, University of ldaho, Moscow, Idaho) - Characterization of Microstructural Evolution of TiAl During Mechanical Alloying (R. Gauvin and M-A. Bernier, Universite de Sherbrooke, Sherbrooke, Quebec, Canada D. C. Joy, University of Tennessee, Knoxville, Tennessee, M. Schmidt, Oak Ridge National Laboratory, Oak Ridge, Tennessee) - A Study of the Solid State Reaction in Fe-Ti Alloys (S. Enzo and P Macri, Dipartimento di Chimica Fisica, Venezia, Italy P. Rose and N. Cowlam, University of Sheffield, Sheffield, England) - ODS Alloys 2 - Evolution of the Fine Grained Microstructure in ODSAlloy PM 2000 During the Processing Route (D. Sporer and G. Korb, Metallwerk PLANSEE GmbH, Tirol, Austria) - High Temperature Corrosion Resistance of Mechanical Alloyed ODS Alloys (G. D. Smith and J. J. deBarbadillo, Inco Alloys International Inc., Huntington, West Virginia) - Performance of Oxide Coating Films on ODS Alloys (Y. Ikeda and H. Sumiyoshi, Tsukuba Laboratories, Tsukuba, Japan, S. Matsuoka and E. Takeuchi, National Research Institute for Metals, Tokyo, Japan) - Intermetallics: TiAl 2 - Synergistic Effect of Mechanical Alloying and Thermochemical Processing on Microstructural Refinement of Titanium Aluminides (D. K. Mukhopadhyay, C. Suryanarayana, and F. H. Froes, University of Idaho, Moscow, Idaho) - Process Control in the Mechanical Alloying of TiAINb Alloys (P. S. Goodwin and C. M. Ward-Close, Defense Research Agency, Hants, England) - Preparation of Amorphous Ti - 50 - A1 - 50 - by Mechanical Alloying and Effects of Milling Atmospheres (G. Chen and K. Wang, University of Science and Technology Beijing, Beijing, China) - New Materials Produced by Mechanical Alloying (I. S. Polkin and A. B. Borzov, All Russian Institute of Light Alloys (VILS), Moscow, C.I.S., F. H. Froes and C. Suryanarayana, University of Idaho, Moscow, Idaho) - Chemical Refining Via Mechanical Alloying (P. G. McCormick, Y. Liu, H. Yang, and G. Nguyen, University of Western Australia, Nedlands, Australia, T. Alonso, CSIRO Division of Mineral Products, Floreat, Australia) - Reactivity of Mechanical Alloys (E. Ivanov, Tosoh SMD Inc., Grove City, Ohio) - Formation of New Metastable Transition Metal Alloys by Combination of Mechanical Alloying and Chemical Leaching (E. Ivanov, Tosoh SMD Inc., Grove City, Ohio, S. Makhlouf, K. Sumiyama, K. Suzuki, and H. Yamauchi, Institute for Materials Research, Sendai, Japan) - Mechanical Alloying of Al - 86 - Mn - 14 - in Hydrogen Atmosphere (G. Chen, K. Wang, and J. Wang, University of Science and Technology Beijing, Beijing, China, H. Jiang and M. Quan, Institute of Metal Research, Shenyang, China) - High Temperature Nitrides and Carbides for Structural Applications Synthesized by Mechanical Alloying (A. Calka, J. I. Nikolov, and B. W. Ninham, Australian National University, Canberra, Australia) - The Formation and Stability of Nanocrystalline Intermetallic Mixtures (G. B. Schaffer and A. J. Heron, University of Queensland, Brisbane, Australia) - Effect of Milling Temperature on the Structure of Some Intermetallic Compounds After Mechanical Milling (C. C. Koch and D. Pathak, North Carolina State University, Raleigh, North Carolina, K. Yamada, The National Defense Academy, Yokosuka, Japan) - Mechanical Milling of Intermetallic Compounds (H. Bakker, L.M. Di, H. Yang, and G. F. Zhou, University of Amsterdam, The Netherlands) - Aluminum Alloys and Titanium Alloys 1 - Steady State Creep Behaviour of a Mechanically Alloyed Al-9 wt.% Ti Alloy (R. Sundaresan, R. S. Mishra, T Raghu, A. G. Paradkar, and M. C. Pandey, Defense Metallurgical Research Laboratory, Hyderabad, India) - Mechanical Properties and Microstructure of Mechanically Alloyed Al-10 at.% X (X = Ti, Zr, Hf) Alloys (R. B. Schwarz, P. B. Desch, and S. R. Srinivasan, Los Alamos National Laboratory, Los Alamos, New Mexico) - Low Cycle Fatigue of Mechanically Alloyed Aluminum (J. C. Gibeling and M. E. Mercer, University of California, Davis, California) - a. m. o.