19 result(s) using Focused Search for substance: consolidated palladium
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Properties:
electrical resistivity
19 result(s) using Focused Search for substance: consolidated palladium
If you didn't find what you were looking for, see more results.
  1. Inorganic Solid Phases

    Pd residual resistivity

    • Element system: Pd; Phase prototype: Cu; Pearson symbol: cF4; Space group: 225; Data points: 3; Samples: 3; Journal references: 3
  2. Landolt-Börnstein

    Atomic Defects in Metals · Pd

    This chapter discusses the properties and interactions of atomic defects in palladium (Pd). There is only limited information on the defect annealing of Pd; in addition some of the detailed results might be ...
  3. Landolt-Börnstein

    Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower · Hf - Pu

    This document is part of Subvolume A ‘Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Gr...
  4. Landolt-Börnstein

    1.7.3.2 Deformed metals

    This chapter discusses on production of atomic defects in predamaged metals. The production of defects under irradiation can be influenced by the presence of lattice defects. These can be introduced by quenc...
  5. Landolt-Börnstein

    Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower · Ni - Re

    This document is part of Subvolume A ‘Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Gr...
  6. Landolt-Börnstein

    3.6 Size dependence of thermopower

    This document is part of Subvolume A ‘Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Gr...
  7. Landolt-Börnstein

    Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower · Figs. 110 - 149

    This document is part of Subvolume A ‘Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Gr...
  8. Landolt-Börnstein

    1.7.1.4 Thermal neutron irradiation

    This chapter discusses production of atomic defects by thermal neutron irradiation. The kinetic energy of thermal neutrons is too low to produce stable displacements in metals by recoil events. But when a ne...
  9. Landolt-Börnstein

    1.6.7.3 fcc alloys of Pd

    This document is part of Subvolume C ‘Alloys and Compounds of d-Elements with Main Group Elements. Part 2’ of Volume 19 ‘Magnetic Properties of Metals’ of Landolt-Börnstein - Group III Condensed Matter.
  10. Landolt-Börnstein

    1.7.4.3 Cascade production

    This chapter talks about cascade production occurring at very high defect densities, cascade yield Qc, mean cascade diameter d, number of vacancies NVper cascade, and cascade efficiency η for irradiation at ...
  11. Landolt-Börnstein

    1.7.1.5 Fission neutron, fast neutron, and fission fragment irradiation

    This chapter discusses production of atomic defects by fission neutron, fast neutron, and fission fragment irradiation. Neutrons from nuclear fission have a broad spectrum of energies. Monochromatization of ...
  12. Landolt-Börnstein

    1.2.1 Pure metal resistivities at T = 273.2 K

    This document is part of Subvolume A ‘Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Gr...
  13. Landolt-Börnstein

    Atomic Defects in Metals · Figs. 46 - 94

    This chapter presents low temperature damage rates in ytterbium, tungsten, yttrium, zinc, and zirconium, as a function of electron energy. It illustrates the variation of minimum displacement energy of the e...
  14. Landolt-Börnstein

    1.6.1 General remarks

    This document is part of Subvolume C ‘Alloys and Compounds of d-Elements with Main Group Elements. Part 2’ of Volume 19 ‘Magnetic Properties of Metals’ of Landolt-Börnstein - Group III Condensed Matter.
  15. Landolt-Börnstein

    1.7.1.2 Ion irradiation

    This chapter discusses production of atomic defects by ion irradiation. For those metals which show annealing already around helium temperature, the irradiation temperature is indicated in a table. Normalize...
  16. Landolt-Börnstein

    Atomic Defects in Metals · Figs. 1 - 45

    This chapter presents some illustrations on the production of atomic defects in metals. Vacancy concentrations cvin silver, aluminum, gold, cadmium, copper, magnesium, and lead derived from differential dila...
  17. Landolt-Börnstein

    1.7.7.1 Threshold energy for sputtering

    This chapter discusses production of atomic defects in metallic glasses, and surface effects. Initial damage rates Δρ/Δφt and saturation resistivities ρsof amorphous materials (a) are compared to crystalline...
  18. Landolt-Börnstein

    1.7.1.1 Electron irradiation

    This chapter deals with production of atomic defects in pure polycrystalline metals. Theoretical calculations indicate a significantly lower cross section for defect production by positrons than by electrons...
  19. Landolt-Börnstein

    Electrical Resistivity, Thermoelectrical Power and Optical Properties · Mg - Zr

    This document is part of Subvolume B ‘Electrical Resistivity, Thermoelectrical Power and Optical Properties’ of Volume 15 ‘Metals: Electronic Transport Phenomena’ of Landolt-Börnstein - Group III Condensed M...
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