High temperature refractory metals by Symposium on High Temperature Refractory Metals New York 1964.

Cover of: High temperature refractory metals | Symposium on High Temperature Refractory Metals New York 1964.

Published by Gordon and Breach in New York .

Written in English

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Subjects:

  • Heat resistant alloys.

Edition Notes

Book details

Statementpapers edited by R. W. Fountain [and others]
SeriesMetallurgical Society conferences,, v. 34 pt. 2
ContributionsFountain, Richard William, 1926- ed., Metallurgical Society of AIME. High Temperature Metals Committee., Metallurgical Society of AIME. Refractory Metals Committee.
Classifications
LC ClassificationsTN700 .S88 1964
The Physical Object
Pagination468 p.
Number of Pages468
ID Numbers
Open LibraryOL5954135M
LC Control Number65027850

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Definition. Most definitions of the term 'refractory metals' list the extraordinarily high melting point as a key requirement for inclusion. By one definition, a melting point above 4, °F (2, °C) is necessary to qualify.

[2] The five elements niobium, molybdenum, tantalum, tungsten and rhenium are included in all definitions, [3] while the wider definition, including all elements with. High temperature refractory metals.

New York, Gordon and Breach [] (OCoLC) Material Type: Conference publication: Document Type: Book: All Authors / Contributors: W A Krivsky; Metallurgical Society of AIME. High Temperature Metals Committee.; Metallurgical Society of AIME. Refractory Metals Committee.

Symposium on High Temperature Refractory Metals ( New York, N.Y.). High temperature refractory metals. New York, Gordon and Breach [©] (OCoLC) Material Type: Conference publication: Document Type: Book: All Authors / Contributors: Richard William Fountain; Metallurgical Society of AIME.

High Temperature Metals Committee. About this book Cutting edge high temperature materials include high temperature superconductors, solid oxide fuel cells, thermoelectric materials and ultrahigh temperature construction materials (including metals, cermets and ceramics) and have applications in key areas such as energy, transportation and space High temperature refractory metals book.

Ultra-High Temperature Materials I: Carbon (Graphene/Graphite) and Refractory Metals - Kindle edition by Shabalin, Igor L. Download it once and read it on your Kindle device, PC, phones or tablets.

Use features like bookmarks, note taking and highlighting while reading Ultra-High Temperature Materials I: Carbon (Graphene/Graphite) and Refractory cturer: Springer.

Ultra-High Temperature Materials I: Carbon (Graphene/Graphite) and Refractory Metals Softcover reprint of the original 1st ed. Edition by Igor L. Shabalin (Author) ISBN ISBN Why is ISBN important.

ISBN. This bar-code number lets you verify that you're getting exactly the right version or edition of a Cited by: Objective High Temperature Materials and Processes offers an international publication forum for new ideas, insights and results related to high-temperature materials and processes in science and technology.

The journal publishes original research papers and short communications addressing topics at the forefront of high-temperature materials research including processing of various materials.

Conway, J.B., and Flagella, P.N. CREEP-RUPTURE DATA FOR THE REFRACTORY METALS TO HIGH y unknown/Code not available: N. p., Web. Refractory metals —molybdenum, tungsten, niobium, and tantalum—have a number of characteristics in common.

They are all b.c.c. metals, and as shown in Fig. 1(a), have some of the highest melting points among the elements. Tables 1 –4 also show that they have very high densities; of the four metals niobium has the lowest at gcm −3 and tungsten the highest at gcm −3. High Temperature Strain of Metals and Alloys: Physical Fundamentals.

Author(s): new in situ X-ray investigations and transmission electron microscope studies lead to novel explanations of high-temperature deformation and creep in pure metals, solid solutions and superalloys.

- Creep of some refractory metals For materials scientists. High Temperature Cermets. Book • Authors: G.V. Samsonov. Browse book content. The text also takes a look at the X-ray spectral investigation of chemical bonding forces in hydrides of refractory metals, using titanium and vanadium compounds as examples and comparison of X-ray K absorption spectra in compounds of chromium with.

The refractory metals include niobium, tantalum, molybdenum, tungsten, and rhenium. They are readily degraded by oxidizing environments at moderately low temperatures. Protective coating systems have been developed, mostly for niobium alloys, to permit their use in. High-Temperature Oxidation-Resistant Coatings: Coatings for Protection From Oxidation of Superalloys, Refractory Metals, and Graphite.

Washington, DC: The National Academies Press. doi: / ×. Thermal Energy Equipment: Furnaces and Refractories All furnaces have the following components as shown in Figure 1 (Carbon Trust, ): Refractory chamber constructed of insulating materials to retain heat at high operating temperatures.

Hearth to support or carry the steel, which consists of refractory materials supported by aFile Size: 1MB. Purchase Refractory Transition Metal Compounds - 1st Edition. Print Book & E-Book. ISBNBook Edition: 1. The first volume focuses on carbon (graphite/graphene) and refractory metals (W, Re, Os, Ta, Mo, Nb, Ir).

The second and third volumes are dedicated solely to refractory (ceramic) compounds (oxides, nitrides, carbides, borides, silicides) and to the complex materials – refractory alloys, carbon and ceramic composites, respectively.

The refractory layer is placed between two metal layers, each of which has a lower melting point than the refractory layer. The three layers are pressed between the two articles to be bonded to form an assembly. The assembly is heated to a bonding temperature at which the refractory layer remains solid, but the two metal layers melt to form a.

This book features contributions covering the advancements and developments of new high-temperature metallurgical technologies and their applications to the areas of processing of minerals, preparation of refractory and ceramic materials, and saving of energy and protection of environment.

Ultra-high-temperature ceramics (UHTCs) are a class of refractory ceramics that offer excellent stability at temperatures exceeding °C being investigated as possible thermal protection system (TPS) materials, coatings for materials subjected to high temperatures, and bulk materials for heating elements.

Broadly speaking, UHTCs are borides, carbides, nitrides, and oxides of early. Purchase Metals Reference Book - 5th Edition. Print Book & E-Book.

ISBNBook Edition: 5. The refractory metals include niobium, tantalum, molybdenum, tungsten, and rhenium. These metals are considered refractory because of their high melting points, high-temperature mechanical stability, and resistance to softening at elevated temperatures.

Buy the Hardcover Book Ultra-High Temperature Materials I: Carbon (Graphene/Graphite) and Refractory Metals by Igor L. Shabalin atCanada's largest bookstore. Free shipping and pickup in store on eligible orders. High-temperature mechanical properties were determined for the new class of coarse-grained refractory composites, based on Al 2 O 3 and 11 or 21 vol.

% of refractory metals Ta and Nb, respectively. It was demonstrated that these coarse-grained refractory composites do not fail in a completely brittle manner during compression tests between Author: Anja Weidner, Yvonne Ranglack-Klemm, Tilo Zienert, Christos G.

Aneziris, Horst Biermann. The iridium based refractory superalloys especially hafnium or nickel containing alloys are promising materials owing to their exceptional ultra-high temperature features such as high melting.

High-density (with a relative density of up to %) ultra-high-temperature ceramic materials (UHTCs) based on the ZrB2–TaC–SiC system were obtained by hot pressing for 15 min at °C About this book.

Introduction. This exhaustive work in three volumes and over pages provides a thorough treatment of ultra-high temperature materials with melting points over °C. The first volume focuses on Carbon and Refractory Metals, whilst the second and third are dedicated solely to Refractory compounds and the third to.

Physical properties of refractory metals, such as molybdenum, tantalum and tungsten, their strength, and high-temperature stability make them suitable material for hot metalworking applications and for vacuum furnace technology.

Many special applications exploit these properties: for example, tungsten lamp filaments operate at temperatures up. This exhaustive work in three volumes and over pages provides a thorough treatment of ultra-high temperature materials with melting points over °C.

The first volume focuses on Carbon and Refractory Metals, whilst the second and third are dedicated solely to Refractory compounds and the third to Refractory Alloys and Composites.

Description. Manufacturer of high-temperature refractory metals. The company recycles high-temperature refractory metals such as tantalum, molybdenum, and tungsten and provides toll conversion services to reclaim and upgrade tantalum scrap for the capacitor, vacuum melting, and metallurgical industries.

Refractory Hard Metals: Borides, Carbides, Nitrides, and Silicides, The Basic Constituents of Cemented Hard Metals and Their Use as High-Temperature Materials Schwarzkopf, Paul, et al Published by Macmillan (). Refractory metals have one characteristic in common: an exceptionally high melting point.

Tungsten, for example, melts at o C ( o F), which is more than double that of iron and ten times that of Size: 1MB. It is thus vital to find new characterization methods that allow an understanding of the fundamental physics of creep in these materials as well as in pure metals. Here, the author shows how new in situ X-ray investigations and transmission electron microscope studies lead to novel explanations of high-temperature deformation and creep in pure.

The history of high heat manufacturing and refractory technology began with the discovery of fire. Nature provided the first refractories, crucibles of rock where metals were softened and shaped into primi-tive tools.

Modern refractories are customized, high-temperature ceramics designed to withstand the destructive and extreme service. High-Temperature Materials Chemistry and Thermodynamics.

Sulata Kumari Sahu and Alexandra Navrotsky. Refractory Metals, Ceramics, and Composites for High-Temperature Structural and Functional Applications. Jeffrey W Fergus and Wesley P Hoffmann.

High-Temperature Adhesives and Bonding. R Peter Dillon. Oxidation of High-Temperature Aerospace. High temperature strain of metals and alloys: physical fundamentals Valim Levitin Creep and fatigue are the most prevalent causes of rupture in superalloys, which are important materials for industrial usage, e.g.

in engines and turbine blades in aerospace or in energy producing industries. How Refractory Metals Compare with Other Familiar Metals What are refractory metals.

Refractory metals have one characteristic in common: an exceptionally high melting point. Tungsten, for example, melts at o C (o F), which is more than double that of iron and ten times that of lead.

This concise survey describes the requirements on materials operating in high-temperature environments and the mechanisms which increase temperature capability in metals, ceramics, and composites. The major part deals with the materials, their development, manufacture, properties and applicability.

High Temperature Materials and Mechanisms explores a broad range of issues related to high-temperature materials and mechanisms that operate in harsh conditions.

While some applications involve the use of materials at high temperatures, others require materials processed at high temperatures for use at room : Yoseph Bar-Cohen.

Article Growing Single Crystals of High-Purity Refractory Metals by Electron-Beam Zone Melting was published on Apr in the journal High Temperature Materials and Processes (Vol Issue 2).

Metals, an international, peer-reviewed Open Access journal. Daer Colleagues, Focussed specifically on refractory metals (Nb, Ta, Mo, W and Re) and their alloys, this issue seeks papers concerning the latest developments in their high temperature properties, corrosion resistance, and strengthening mechanisms including carbide, precipitate, solid-solution and dispersion strengthening.

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