Refractory metal systems [electronic resource] : Selected Systems from C-Ta-W to Ti-V-W / edited by G. Effenberg, S. Ilyenko.

Format:

Book

Contributor:

Effenberg, G., Editor.

Ilyenko, S., Editor.

Series:

Physical Chemistry, 1615-2018 ; 11E3

Language:

English

Subjects (All):

Physics.

Thermodynamics.

Crystallography.

Physics, general.

Crystallography and Scattering Methods.

Local Subjects:

Physics, general.

Thermodynamics.

Crystallography and Scattering Methods.

Physical Description:

1 online resource (XVIII, 644 p. 285 illus.)

Place of Publication:

Berlin, Heidelberg : Springer Berlin Heidelberg, 2010.

Language Note:

English

Summary:

The sub-series Ternary Alloy Systems of the Landolt-Börnstein New Series provides reliable and comprehensive descriptions of the materials constitution, based on critical intellectual evaluations of all data available at the time and it critically weights the different findings, also with respect to their compatibility with today’s edge binary phase diagrams. Selected are ternary systems of importance to alloy development and systems which gained in the recent years otherwise scientific interest. In one ternary materials system, however, one may find alloys for various applications, depending on the chosen composition. Reliable phase diagrams provide scientists and engineers with basic information of eminent importance for fundamental research and for the development and optimization of materials. So collections of such diagrams are extremely useful, if the data on which they are based have been subjected to critical evaluation, like in these volumes. Critical evaluation means: there where contradictory information is published data and conclusions are being analyzed, broken down to the firm facts and re-interpreted in the light of all present knowledge. Depending on the information available this can be a very difficult task to achieve. Critical evaluations establish descriptions of reliably known phase configurations and related data.

Contents:

Carbon – Tantalum – Tungsten

Carbon – Tantalum – Zirconium

Carbon – Tungsten – Zirconium

Calcium – Oxygen – Vanadium

Calcium – Oxygen – Zirconium

Cerium – Oxygen – Zirconium

Cobalt – Iron – Tungsten

Chromium – Copper – Oxygen

Chromium – Copper – Sulfur

Chromium – Iron – Tungsten

Chromium – Lanthanum – Oxygen

Chromium – Molybdenum – Nickel

Chromium – Molybdenum – Silicon

Chromium – Molybdenum – Titanium

Chromium – Molybdenum – Zirconium

Chromium – Niobium – Silicon

Chromium – Nickel – Tungsten

Copper – Oxygen – Vanadium

Iron – Molybdenum – Neodymium

Iron – Molybdenum – Tungsten

Iron – Molybdenum – Zirconium

Iron – Nitrogen – Titanium

Iron – Niobium – Yttrium

Iron – Oxygen – Vanadium

Iron – Silicon – Tungsten

Molybdenum – Nitrogen – Titanium

Molybdenum – Niobium – Silicon

Molybdenum – Niobium – Zirconium

Molybdenum – Nickel – Tungsten

Molybdenum – Silicon – Tantalum

Molybdenum – Silicon – Uranium

Molybdenum – Silicon – Vanadium

Molybdenum – Silicon – Tungsten

Molybdenum – Silicon – Zirconium

Molybdenum – Titanium – Vanadium

Molybdenum – Titanium – Zirconium

Nitrogen - Oxygen - Silicon

Nitrogen - Uranium - Zirconium

Niobium - Nickel - Titanium

Niobium - Nickel - Vanadium

Niobium - Silicon - Titanium

Niobium - Silicon - Tungsten

Niobium - Vanadium - Zirconium

Oxygen – Silicon – Zirconium

Oxygen – Titanium – Zirconium

Oxygen – Uranium – Zirconium

Oxygen – Yttrium – Zirconium

Silicon – Titanium – Vanadium

Titanium – Vanadium – Tungsten.

Notes:

Bibliographic Level Mode of Issuance: Monograph

ISBN:

3-642-00771-6