Neutron Scattering in Materials Science II: Volume 376Dan A. Neumann, Thomas P. Russell, Bernhardt J. Wuensch Neutron scattering proves itself a highly international area of research as scientists and engineers from twenty-one countries come together in this volume - to discuss the growth and maturation of the use of neutrons as a probe in materials research and to survey current applications. A wide range of materials are examined, including polymers, cements, high-Tc superconducting oxides and carbides, inorganic glasses, magnetic films, ceramics and metallic alloys. Topics include: instrumentation at major neutron facilities in North America; developments in instrumentation and techniques; neutron reflectivity studies of surfaces and interfaces; small angle neutron scattering (SANS) studies of polymers and complex fluids; SANS studies of ceramics and metals; residual stress analysis; cementitious materials; high-Tc superconducting materials; interfaces, multilayers and nanocrystals of magnetic materials; oxide materials; inorganic glasses; alloys; and adsorbed systems, inelastic scattering and dynamics. |
Contents
THE EARLY DAYS OF NEUTRON SCATTERING | 3 |
THE MANUEL LUJAN JR NEUTRON SCATTERING CENTER LANSCE | 13 |
INSTRUMENTATION FOR NEUTRON SCATTERING AT | 25 |
Copyright | |
87 other sections not shown
Common terms and phrases
alloys analysis antiferromagnetic approximately asphaltenes atoms axis Bragg Bragg peaks calculated cement chopper collimation component composition concentration correlation curves density profile detector determined diffuse scattering effect elastic energy experimental experiments factor ferroelastic Figure film flux function graphite hydration hydrogen incident increase inelastic instrument interactions interface lattice layer magnetic martensite materials matrix measurements microstructure molecules monochromator multilayer National Laboratory neutron beam neutron diffraction neutron reflectivity neutron reflectometry neutron scattering NIST observed obtained oxide parameters particles peak phase phonon Phys plane polymer pore powder diffraction pyrolytic graphite range ratio reactor reflectometer Research residual stress resolution Rietveld Rietveld refinement sample scattering angle scattering length density shear shown in Fig shows single crystal small angle solid solvent spectra spectrometer specular specular reflectivity strain structure studies superconducting surface surfactant technique temperature thermal thickness transition values vector volume fraction wavelength wavevector width X-ray