Metallurgy

Intermetallic compounds / 4, Magnetic, electrical and by J. H. Westbrook, R. L. Fleischer

By J. H. Westbrook, R. L. Fleischer

Guide of Nanophysics: useful Nanomaterials illustrates the significance of tailoring nanomaterials to accomplish wanted services in functions. every one peer-reviewed bankruptcy features a broad-based creation and complements figuring out of the state of the art clinical content material via primary equations and illustrations, a few in colour. This quantity covers a number of composites, together with carbon nanotube/polymer composites, printable steel nanoparticle inks, polymer–clay nanocomposites, biofunctionalized titanium dioxide-based nanocomposites, nanocolorants, ferroic nanocomposites, and shrewdpermanent composite platforms. It additionally describes nanoporous fabrics, an immense nanomembrane, graphitic foams, arrayed nanoporous silicon pillars, nanoporous anodic oxides, steel oxide nanohole arrays, carbon clathrates, self-assembled monolayers, epitaxial graphene, and graphene nanoribbons, nanostructures, quantum dots, and cones. After targeting the tools of nanoindentation and self-patterning, the publication discusses nanosensors, nano-oscillators, and hydrogen garage. Nanophysics brings jointly a number of disciplines to figure out the structural, digital, optical, and thermal habit of nanomaterials; electric and thermal conductivity; the forces among nanoscale items; and the transition among classical and quantum habit. Facilitating communique throughout many disciplines, this landmark e-book encourages scientists with disparate pursuits to collaborate on interdisciplinary tasks and include the speculation and technique of different parts into their paintings Magnetic ideas (J. Kouvel). electric and digital habit (M. Braunovic). Magnetic purposes (H. Stadelmaier & B. Reinsch). Semiconductor purposes (K. Masumoto, et al.). Superconductor purposes (Z. Stekly & E. Gregory). Magnetostriction: fabrics and purposes (R. Greenough & M. Schulze). Optical purposes (M. England & E. Arakawa). Magneto-Optical functions (W. McGahan). Thermoelectric and electric functions (M. Vedernikov). Diffusion boundaries (R. de Reus). Index. Contents of 1995 variation

Show description

Read or Download Intermetallic compounds / 4, Magnetic, electrical and optical properties and applications of intermetallic compounds PDF

Best metallurgy books

Ultra-fine grained steels

Ultra-Fine Grained Steels discusses result of the hot iteration Iron and metal fabrics learn venture funded over the past ten years. sleek sustainability necessities wish that iron and metal needs to meet 4 stipulations: superior, longer carrier existence, modern production expertise (low expense, fabric and effort efficient), and environmentally sound (waste recycling, decreased carbon dioxide emission).

Welding Metallurgy and Weldability of Stainless Steels

Welding Metallurgy and Weldability of Stainless Steels, the 1st booklet in over two decades to deal with welding metallurgy and weldability concerns linked to chrome steel, bargains the main up to date and complete remedy of those themes at the moment to be had. The authors emphasize basic metallurgical rules governing microstructure evolution and estate improvement of stainless steels, together with martensistic, ferric, austenitic, duplex, and precipitation hardening grades.

Additional resources for Intermetallic compounds / 4, Magnetic, electrical and optical properties and applications of intermetallic compounds

Example text

Ref. Data Ser. Natl. Bur. Stand. (NSRDS-NBS15. ), Vol. 1 pp. 47–49 and 52. , Watanabe, N. (1977). Time-of-flight pulsed neutron diffraction of liquids using an electron linac. Nucl. Instrum. Methods, 147, 1977 pp 519–528. J. (1962). Numerical evaluation of X-ray absorption factors for cylindrical samples and annular sample cells. J. Appl. , 33, 2635–2639. F. (1992). Neutron scattering lengths and cross sections. Neutron News, 3, 26–37. G. (1963). Crystal Structures, Vol. 85. , Furukawa, K. X-ray Diffraction Analysis of Ionic Liquids.

T. (1968). Electrical conductance, density, and viscosity data. Natl. Stand. Ref. Data Ser. Natl. Bur. Stand. (NSRDS-NBS15. ), Vol. 1 pp. 47–49 and 52. , Watanabe, N. (1977). Time-of-flight pulsed neutron diffraction of liquids using an electron linac. Nucl. Instrum. Methods, 147, 1977 pp 519–528. J. (1962). Numerical evaluation of X-ray absorption factors for cylindrical samples and annular sample cells. J. Appl. , 33, 2635–2639. F. (1992). Neutron scattering lengths and cross sections. Neutron News, 3, 26–37.

Suppl. Phys. , 19(S4), 13–19. , Furukawa, K. (1981). X-ray diffraction analysis of molten NaCl near its melting point. J. Chem. , Faraday Trans. 1, 77, 1981–1986. A. (1975). Pair potential for alkali metal halides with rock salt crystal structure. Molecular Dynamics calculations on NaCl and LiI. J. Chem. , Faraday Trans. 2, 71, 1730–1741. E. (1974). Application of the molecular dynamics method to a liquid system with long range forces (Molten NaCl). Mol. , 28(6), 1537–1549. , Singer, K. (1975).

Download PDF sample

Rated 4.88 of 5 – based on 3 votes