LBOI
Landolt-Boernstein Search
  Home  |   Search  |   Indices  |   Indexed Volumes  
scidex

Element System


Ag-Pb-Sn (Silver, Lead, Tin)

There are 2 compounds with this exact Element-System in the database.


Ag-Pb-Sn
Thermodynamic Properties
 Thermodynamic Properties: Ternary Alloy Systems. Crystallographic and Thermodynamic Data, Phase Diagrams: Vol. IV/11C3 14, p.113IV/11C3

Pb0.9547Ag0.0282Sn0.0171
Electronic Properties
 Superconducting Properties: Pb (Lead): Pb based alloys and compounds: Vol. III/21c 795, p.77III/21c


References:
III/21c
Short: III/21c
Title: Superconductors: Transition Temperatures and Characterization Of Elements, Alloys and Compounds: O (without cuprates) ... Sc
Author: Flükiger, R.; Hulliger, F.; Kaner, N.; Luo, H.L.; Müller, R.; Radhakrishnan, T.S.; Shelton, R.N.; Weis, F.; Wolf, T.; Yu, D.
Editor: Flükiger, R.; Klose, W.
Source: Landolt-Börnstein, New Series
Volume: III/21c
Year: 1997
ISBN: 3-540-56047-5
ISBN: 978-3-540-56047-0
Internet Resource: DOI:10.1007/b42902
RefComment: XXVIII, 317 pages. Hardcover
Abstract: In volume III/21 an attempt is made to compile the reported data on superconducting materi-als, from the discovery of this phenomenon to the present day. The data comprise various modifications of a material, e.g. bulk state, thin films,implanted films, filamentary wires and others. Where available,data obtained under high pressure or after high energy particle irradia-tion are also tabulated. The goal of this volume is to establish a complete and reliable compilation of critically reviewed experimental data, excluding pure theoretical work. A particular effort was made to present not only superconducting data for a given substance, but also the complete characterization of the analysed sample. The large number of publications, more than 40,000 since 1913, requires a subdivision of the data in several subvolumes.
IV/11C3
Short: IV/11C3
Title: Ternary Alloy Systems - Phase Diagrams, Crystallographic and Thermodynamic Data: Non-Ferrous Metal Systems, Part 3: Selected Soldering and Brazing Systems
Author: Materials Science International Team MSIT
Editor: Effenberg, G.; Ilyenko, S.
Source: Landolt-Börnstein, New Series
Volume: IV/11C3
Year: 2007
Keyword: brazing; crystallography; non-ferrous metal systems; phase diagrams; phase equilibria; soldering; ternary alloys; thermodynamics
ISBN: 978-3-540-25777-6 (Print)
ISBN: 978-3-540-47004-5 (Online)
Internet Resource: DOI:10.1007/978-3-540-47004-5
RefComment: XVII, 493 p. 351 illus. With CD-ROM., Hardcover
RefComment: Written for scientists and engineers involved in materials research
Abstract: The present volume in the New Series of Landolt-Börnstein provides critically evaluated data on phase diagrams, crystallographic and thermodynamic data of ternary alloy systems. Reliable phase diagrams provide materials scientists and engineers with basic information important for fundamental research, development and optimization of materials. The often conflicting literature data have been critically evaluated by Materials Science International Team, MSIT®, a team working together since many years, and with expertise in a broad range of methods, materials and applications. All evaluation reports published here have undergone a thorough review process in which the reviewers had access to all the original data. The data for each ternary system are provided in a standard format which includes text, tables and diagrams. The topics presented are literature data, binary systems, solid phases, pseudobinary systems, invariant equilibria, liquidus, solidus, and solvus surfaces, isothermal sections, temperature-composition sections, thermodynamics, materials properties and applications, and miscellanea. Finally, a detailed bibliography of all cited references is provided. In the present volume IV/11C selected non-ferrous-metal systems are considered, especially selected soldering and brazing systems in this Part 3.


  File created on 2009/18/08 by LCI Publisher GmbH (Gaja Peters, Inga Thede, Volkmar Vill, Ron Zenczykowski)
  © 2009   Landolt Börnstein,   Springer-Verlag Berlin Heidelberg