5 edition of Rapidly solidified alloys and their mechanical and magnetic properties found in the catalog.
Includes bibliographies and index.
|Statement||editors, B.C. Giessen, D.E. Polk, A.I. Taub.|
|Series||Materials Research Society symposia proceedings,, v. 58|
|Contributions||Giessen, B. C., 1932-, Polk, D. E., Taub, A. I., Materials Research Society.|
|LC Classifications||TS247 .R367 1986|
|The Physical Object|
|Pagination||xv, 463 p. :|
|Number of Pages||463|
|LC Control Number||86012711|
Microstructure of Rapidly Solidified Ti 3 Al Alloys. Rapidly Solidified Alloys and their Mechanical and Magnetic Properties, The magnetic and mechanical properties of rapidly solidified melt spun alloys are shown to be significantly different (,7- ). For example, the permeability of melt spun tapes is different.
Abstract. The Rietveld X-ray diffraction analysis was applied to analyze the weight fraction of precipitation phases and microstructure characterizations of rapidly solidified Al-8Zn-4Mg-Cu, = 1, 4, 8, and 10 alloys (in wt.%), prepared by melt spun technique.A good agreement between observed and calculated diffraction pattern was obtained and the conventional Rietveld factors (,, and GOF. The decomposition of the β phase in rapidly quenched Ti at. pct Co, Ti at. pct Ni, Ti at. pct, and at. pct Cu alloys has been investigated by electron microscopy. During rapid quenching, two compctitive phase transformations, namely martensitic and eutectoid transformation, have occurred, and the region of eutectoid transformation is extended due to the high cooling rates.
This chapter describes different rapidly solidified processing routes of soft magnetic alloys and their properties and applications in different areas. Section-2 explains the details of process mechanism. The functions of different alloying elements are discussed with the alloy design of soft magnetic alloys in section The structure-property correlation is described in section PDF | This paper investigates complex studies of phase composition, thin crystalline structure parameters and magnetic properties of rapidly solidified | Find, read and cite all the research.
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Part 3 Applications: applications of rapidly solidified soft magnetic alloys, Carl H. Smith; rapidly solidified Nd-Fe-B alloy for permanent magnet applications, M.S. Guthrie; brazing and soldering with rapidly solidified alloys, A.
Rabinkin and Howard H. Liebermann; mechanical performance applications of rapidly solidified alloys, C. This volume details the principles underlying rapid solidification processing, material structure and properties, and their applications.
This practical resource presents a manifold approach to both amorphous and crystalline rapidly solidified metallic alloys.;Written by over 30 internationally acclaimed specialists in their respective fields, Rapidly Solidified Alloys: surveys nucleation and Cited by: Rapidly solidified alloys and their mechanical and magnetic properties.
Pittsburgh, Pa.: Materials Research Society, © (OCoLC) Online version: Rapidly solidified alloys and their mechanical and magnetic properties.
Pittsburgh, Pa.: Materials Research Society, © (OCoLC) Material Type: Conference publication. Their mechanical properties seem to be promising for their potential applications.
This Special Issue covers all the aspects of the synthesis, characterization, and application of rapidly solidified amorphous and nanocrystaline materials. The structural, mechanical and magnetic properties of Fe Si wt% rapidly solidified alloys have been investigated following recrystallization annealing and different rates of cooling through the B2 + DO3 ordering region (1 ≤ T ≤ °C min−1).
This volume details the principles underlying rapid solidification processing, material structure and properties, and their applications. This practical resource presents a manifold approach to both amorphous and crystalline rapidly solidified metallic alloys.;Written by over 30 internationally acclaimed specialists in their respective fields, Rapidly Solidified Alloys: surveys nucleation and.
Chemical Properties of Rapidly Solidified Alloys / K. Hashimoto Applications of Rapidly Solidified Soft Magnetic Alloys / Carl H.
Smith Rapidly Solidified Nd-Fe-B Alloy for Permanent Magnet Applications / M. Guthrie Brazing and Soldering with Rapidly Solidified Alloys / A. Rabinkin and Howard H. Liebermann 1. Introduction. Amorphous Fe-based alloys manufactured by rapid solidification, depending on their chemical composition, can be characterised by outstanding mechanical properties such as increased tensile and compression strength, and enhanced onally, they can exhibit excellent corrosion resistance, and superb soft magnetic properties.
Abstract. This chapter discusses the basis magnetic properties, microstructure, and annealing behavior of melt-spun NdFeB materials. These materials derive their permanent magnet properties from the Nd 2 Fe 14 B intermetallic compound and the primary focus of the chapter is how the properties and microstructure of a series of Nd (Fe 1–y B y) alloys change as the composition and.
The martensite with a P 1 space group has been found in Ti 3 Al-Nb alloys containing Nb below 5-at% via rapid solidification in the cooling rate of 10 5 ~ 10 6 K/s. The ordering for the martensite α″ 0 in the alloys inherited that of the β 0 phase.
Enormous twins with () crystallographic planes were observed in the martensite α″ orientation relationships between the α″ 0. Fig. 1, Fig. 2 show the XRD patterns of the melt-spun Al–Ce alloys quenched at and rpm, respectively. The phases present in the melt-spun Al–8 Ce and Al–20 Ce alloys were determined to be α-Al and α-Al 11 Ce 3, identical to those in the ingot-cast alloys solidified under conventional phases in the melt-spun Al– Ce alloy quenched at rpm were also.
Structure and Mechanical Properties of Aluminium Alloys Rapidly Solidified by Electron Beam Surface Treatment Microstructure of Some Rapidly Solidified Al-Base Alloys Rapidly Solidified Microstructures and Precipitation in a Tiw/o Ni Alloy Second Phase Coarsening in Rapidly Solidified Ti-5sn La System The Production of Ultrafine.
Materials Science and Engineering, 98 () The Influence of Nb Addition on Structure and Properties of Rapidly Solidified Intermetallics* G.
VENKETARAMAN AFWAL Materials Laboratory, Wright Patterson AFB, OH (U.S.A.). Get this from a library. Rapidly Solidified Alloys: Processes-Structures-Properties-Applications. [Liebermann] -- "This volume details the principles underlying rapid solidification processing, material structure and properties, and their applications.
This practical resource presents a manifold approach to. Magnetic and mechanical properties of rapidly solidified Fe Si wt% alloys and their interpretation. By Hermann Hesse - rapidly solidified alloys processes structures properties applications materials engineering book 3 english edition ebook liebermann amazonde kindle shop this volume details the principles underlying rapid solidification processing material structure and properties and their.
Engineering Magnetic Properties, A. Hernando and M. V zquez Chemical Properties of Rapidly Solidified Alloys, K. Hashimoto. Applications. Applications of Rapidly Solidified Soft Magnetic Alloys, Carl H. Smith Rapidly Soidified Nd-Fe-B Alloy for Permanent Magnet Applications, M.S.
Guthrie Brazing and Soldering with Rapidly Solidified Alloys, A. The rapidly solidified alloys contained a significant amount of the La(Fe-Si)13 phase, bcc Fe-Si, and a small amount of other phases such as LaFeSi as revealed by powder X-ray diffraction analysis.
Abstract. The structural, mechanical and magnetic properties of Fe Si wt% rapidly solidified alloys have been investigated following recrystallization annealing and different rates of cooling through the B 2 + DO 3 ordering region (1 ≤ T ≤ ° C min -1).A transition from ductile to brittle behavior is observed for T.
Currently, only two rapidly solidified Al alloys are beyond the experimental state. The and alloy powders are commercially produced by several companies. Alcoa relatively recently announced the first production quantity commercial orders for wrought aluminum powder metallurgy parts made from alloy X The parts, a main landing gear.
Microstructure evolution, the formation of B2 (ordered BCC) phase and its relation to the nano-mechanical properties of the rapidly solidified Ti68Al32, Ti63Al32Nb5 and Ti58Al32Nb10 alloys. The mechanical properties, specifically the deformation and fracture behavior of rapidly solidified and annealed iron-silicon melt spun ribbons with 20 to μm in thickness and silicon contents ranging from to wt pct were investigated in view of their microstructural features, preferred crystal orientation (texture), dislocation.The first synthesis of Fe-Si-B base bulk glassy alloys with good soft magnetic properties and high mechanical strength is promising for the future development as a new type of engineering material.