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SYNTHESIS OF INTERMETALLICS BY MECHANICAL ALLOYING

F. H.(Sam) Froes , C. Suryanarayana , and D. Mukhopadhyay (Institute for Materials and Advanced Processes (IMAP) , University of Idaho , Moscow , ID 83844-3026 , USA)C-G. Li(BlM , P.O. Box 81 , Beijing , 100095 , P.R. CHINA)K. Brand(On leave from Institut fur Werkstoffwissenshaft , Technische Universitst Dresden , 07062 Dresden , Germany , at IMAP)

金属学报(英文版)

Mechanical alloying (MA), a solid-state powder processing method, is a "far from equilibrium" synthesis technique which allows development of novel crystal structures and microstructures, leading to enhanced physical and mechanical properties. The ability to synthesize a variety of alloy phases including supersaturated solid solutions, nanocrystalline structures, amorphous phases and intermetallic compounds themselves is discussed. No extension of solubility using MA has been observed in the intermetallics studied. Nanostructured grains were observed in all compositions. Long time milling generally resulted in amorphous phase formation in large part because of the increase in grain boundary energy/mole with reduced grain size; good agreement with the Miedema model for amorphization was obtained in the Al-Fe system. Generally an anneal was required to form the intermetallic after MA; however,intermetallics with a large negative enthalpy of formation were detected in the MA condition. A study of the hot isostatic pressing of γ-TiAl powders produced by MA demonstrated that full density can be achieved at least 400℃ below the normal temperature required for conventional powder, that is 725℃ or below. Nanometered sized grains (≤100nm)were observed after HIP'ing up to 850℃.

关键词: : Intermetallics , null , null

Advanced Materials for Energy Storage

Advanced Materials

Popularization of portable electronics and electric vehicles worldwide stimulates the development of energy storage devices, such as batteries and supercapacitors, toward higher power density and energy density, which significantly depends upon the advancement of new materials used in these devices. Moreover, energy storage materials play a key role in efficient, clean, and versatile use of energy, and are crucial for the exploitation of renewable energy. Therefore, energy storage materials cover a wide range of materials and have been receiving intensive attention from research and development to industrialization. In this Review, firstly a general introduction is given to several typical energy storage systems, including thermal, mechanical, electromagnetic, hydrogen, and electrochemical energy storage. Then the current status of high-performance hydrogen storage materials for on-board applications and electrochemical energy storage materials for lithium-ion batteries and supercapacitors is introduced in detail. The strategies for developing these advanced energy storage materials, including nanostructuring nano-/microcombination, hybridization, pore-structure control, configuration design, surface modification, and composition optimization, are discussed. Finally, the future trends and prospects in the development of advanced energy storage materials are highlighted.

关键词: lithium-ion batteries;carbon nanotube electrodes;enhanced hydrogen;storage;metal-organic frameworks;double-layer capacitors;n-h system;carbide-derived carbons;ammonia borane dehydrogenation;ordered;mesoporous carbons;high-rate performance

EXPLORATION OF Nb-BASED ADVANCED INTERMETALLIC MATERIALS

D M DIMIDUK(Wright-Laboratory , Materials Directorate , WL/MLLM , Wright-Patterson AFB , OH45433-7817 , USA)P R SUBRAMANIAN and M G MENDIRATTA (UES , Inc. , Dayton , OH 45432 , USA)

金属学报(英文版)

Since the late 1980's there have been a number of research efforts aimed at exploring and developing the refractory intermetalllic materials for service at temperatures which compete with the nickel-based superalloys in structural applications. These efforts have documented the physical and mechanical properties of a broad set of compositions. However, only in the last three years have these efforts yielded sufficient experimental results on single selected systems to suggest that damage tolerance, creep resistance and oxidation resistance may be obtained and controlled simultaneously. These findings led to alloy development concepts and approaches which are currently under investigation and are expected to lead to research focused on a smaller set of alloys. An overview of selected alloy development strategies and resulting structural properties is presented herein.

关键词: : refractory intermetallics , null , null

R & D ACTIVITIES ON AEROSPACE MATERIALS IN KOREA

H.M. Kim(Korea Institute of Machinery and Materials , Korea Manuscript received 26 August 1996)

金属学报(英文版)

This paper briefly reviews research and development programs in Korean aerospace industry,with an emphasis on aircraft materials technology. International collaborations in these areas are outlined and the R & D activities are highlighted against the background of the national economy.It is shown that the investment from government agencies and large enterprises has led to healthy development of aerospace materials industries in Korea.

关键词: :R & D , null , null , null

Atomic-scale processes revealing dynamic twin boundary strengthening mechanisms in face-centered cubic materials

Scripta Materialia

We report experimental investigations on interactions/reactions between dislocations and twin boundaries in Al. The absorption of screw dislocations via cross-slip and the production of stair-rods via reactions with non-screw dislocations were verified by atomic resolution imaging. Importantly, the resulting partial dislocations moving along twin boundaries can produce secondary sessile defects. These immobile defects act as obstacles to other dislocations and also serve to pin the twin boundaries. These findings show the atomic-level dynamics of the dislocation twin boundary processes and the unique strengthening mechanism of twin boundaries in face-centered cubic metals. (C) 2012 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

关键词: Twin boundary;Dislocation;Strengthening;Plasticity;Face-centered;cubic metals;nanocrystalline al;lattice dislocations;deformation twins;maximum;strength;grain-boundaries;metals;crystals;nucleation;simulation;aluminum

ADVANCED SYNTHESIS OF LIGHT METALS

F.H. Froes(IMAP , University of Idaho , Moscow , ID 838443026 , USA Manuscript received 26 August 1996)

金属学报(英文版)

The synthesis, processing and mechanical properties of the light metals, aluminum,magnesium and titanium Produced by advanced techniques are reviewed. Synthesis techniques to be addressed will include rapid solidification, spray deposition, mechanical alloying, plasma Processing and vapor deposition.

关键词: :synthesis/processing , null , null , null , null , null , null , null , null , null , null

AN ADVANCED TECHNIQUE FOR THE TEXTURES MEASUREMENT ANDANALYSIS FOR THE MULTILAYER MATERIALS

Y. D. Liu , G. Wang , C.S. He , Y.D. Whng and J.Z. Xu (Department of Materials Science and Engineering , Northeastern University , Shenyang 110006 , China)

金属学报(英文版)

In view of being difficult to find a non-oriented multilayer specimen, the precise defocusing correction become a particular obstacle of quantitative texture analyszs of the multzlayer. A new method is employed in this paper for comcting the eoperzment data. And a theoretical calculation for the defocus curre is proposed thinking about both thc dtherent film thickness and the penetration depth of the incident beam in the films. A critical value jor the defocusing cormction in the film is alsi cinsidered. This new tcchnique is applied to the Zn-Cu multilayer for which the quantitative texture analysis is completed by the modified maxitnum entropy tnethod.

关键词: multilayer , null , null

Microstructures in advanced materials characterized by HREM and nanoscale analysis

Materials Characterization

Segregation of yttrium induces the formation of Y0.25Zr0.75O2-x and Y0.5Zr0.5O2-y microdomains, with L1(2)- and L1(0)-like ordered structures, in ZrO2-6mol%Y2O3 ceramics in both the sintered and annealed states. The compositions of precipitates such as (chi L), (chi S), (chi SS), and small precipitates formed inside XL, in Cu-11.88Al-5.06Ni-1.63Mn-0.96Ti (wt.%) shape memory alloys have been determined. Under electron beam irradiation, four types of dynamic behavior of the G.P. zones were observed in the Al-6.58Zn-2.33Mg-2.40Cu (wt.%) alloy. The G.P. zone and "G.P. zone-like" defect structures were also distinguished. Lattice distortion profile in the GaAs/InxGa1-xAs superlattice and two-dimensional lattice distortion around a 60 degrees dislocation core in the InAs(x)P(1-)x/InP superlattice were determined. (C) Elsevier Science Inc., 2000. All rights reserved.

关键词: shape-memory alloys;zirconia;phase;ti;diffraction;crystal

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