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

    Al residual resistivity

    • Element system: Al; Phase prototype: Cu; Pearson symbol: cF4; Space group: 225; Data points: 29; Samples: 3; Journal references: 3
  2. Landolt-Börnstein

    Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower · Ac - Gd

    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...
  3. Landolt-Börnstein

    1.3.2 Size dependent deviations from Matthiessen’s rule

    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

    1.7.9.2 Computer simulation of high energy cascades

    This chapter discusses computer simulation of high energy cascades. From computer simulation details of cascade evolution in time and space can be obtained. The only experimental technique which can supply d...
  5. Landolt-Börnstein

    Table 1, Figs. 1 - 26

    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

    1.7 Production of atomic defects in metals by irradiation

    This chapter discusses production of atomic defects in metals by irradiation. When an energetic particle interacts with the nucleus of a lattice atom, a series of processes is initiated. Their sequence in ti...
  7. Landolt-Börnstein

    Electrical Resistivity, Kondo and Spin Fluctuation Systems, Spin Glasses and Thermopower · Ac - Cm

    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

    1.6 Production of atomic defects in metals by plastic deformation

    This chapter discusses production of atomic defects in metals by plastic deformation. Annealing experiments indicate that vacancies and, to a lesser extent, interstitials are formed in metals during plastic ...
  9. 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...
  10. 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...
  11. Landolt-Börnstein

    1.7.5.1 Dilute alloys

    This chapter discusses production of atomic defects in dilute alloys. The major effect of the addition of small amounts of alloying elements in most metals is an enhancement of the initial damage rate and a ...
  12. Landolt-Börnstein

    Atomic Defects in Metals · Figs. 95 - 129

    This chapter discusses the directional dependence of the displacement energy of metals like aluminum (Al), copper (Cu), platinum (Pt) and gold (Au) through illustrations. The damage rates of Al, Au, cadmium ...
  13. Landolt-Börnstein

    1.7.2.1 Displacement energy maps

    This chapter discusses production of atomic defects in pure, single crystalline metals. The onset energies of damage production for irradiation along some of the main crystal directions is lower than the dis...
  14. Landolt-Börnstein

    1.7.4.2 Defect saturation

    This chapter discusses saturation of defects produced in metals at high densities. During continuous irradiation at low temperatures, the immobile atomic defects will accumulate in the lattice and some of th...
  15. 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...
  16. 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...
  17. Landolt-Börnstein

    Atomic Defects in Metals · Al

    This chapter provides information related to annealing of irradiated aluminum (Al). Defect annealing has been investigated by resistivity measurements after low temperature irradiations with electrons, deute...
  18. 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...
  19. 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...
  20. Landolt-Börnstein

    Electrical Resistivity, Thermoelectrical Power and Optical Properties · Ag - Lu

    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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