Journal ArticleDOI
Shear deformation experiments of forsterite at 11 Gpa - 1400°C in the multianvil apparatus
Hélène Couvy,Hélène Couvy,Daniel J. Frost,Florian Heidelbach,Krisztián Nyilas,Tamás Ungár,Stephen J. Mackwell,Patrick Cordier +7 more
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In this paper, synthetic forsterite samples were shear-deformed at 11 GPa, 1400°C in the multianvil apparatus, and the deformation microstructures have been characterised by SEM, EBSD, X-ray diffraction peak broadening and strain anisotropy analysis, and TEM.Abstract:
Synthetic forsterite samples were shear-deformed at 11 GPa, 1400°C in the multianvil apparatus. The deformation microstructures have been characterised by SEM, EBSD, X-ray diffraction peak broadening and strain anisotropy analysis, and TEM. Different time durations have been characterised with a view to follow the evolution of strain and stress in high-pressure deformation experiments. A high density of [001] dislocations is introduced during pressurization at room temperature although no significant macroscopic shear or crystal preferred orientations are induced at this stage. The deviatoric stress is probably on the order of 1.5 GPa. Heating at 1400°C leads to a rapid decrease of the density of these dislocations. The shear deformation at high-temperature leads to measurable strain and development of crystal preferred orientations after one hour. Stress and strain-rate continue to decrease with time, such that eight hour experiments exhibit microstructures where recovery is apparent. At this stage, the stress level is estimated at ca. 100 MPa from dislocation density measurements. Crystal preferred orientations and TEM characterisation show that glide of [001] dislocations on (100) or (010) is the dominant deformation mechanism. Further investigation is needed to determine whether inhibition of [100] glide in these experiments is due to the role of water or whether a physical effect of pressure is also contributing.read more
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Journal ArticleDOI
Geodynamic Significance of Seismic Anisotropy of the Upper Mantle: New Insights from Laboratory Studies
TL;DR: In this paper, the role of water as well as stress, temperature, pressure, and partial melting has been addressed, and new results require major modifications to the geodynamic interpretation of seismic anisotropy in tectonically active regions such as subduction zones, asthenosphere and plumes.
Journal ArticleDOI
Effect of water and stress on the lattice-preferred orientation of olivine
Haemyeong Jung,Haemyeong Jung,Haemyeong Jung,Ikuo Katayama,Zhenting Jiang,Takehiko Hiraga,Shun-ichiro Karato +6 more
TL;DR: In this article, the influence of water and stress on the lattice-preferred orientation (LPO) of olivine aggregates was investigated through large strain, shear deformation experiments at high pressures and temperatures (P=0.5-2.1 GPa, T=1470-1570 K).
Book ChapterDOI
Seismic Anisotropy of the Deep Earth from a Mineral and Rock Physics Perspective
Abstract: The seismic anisotropy of the deep Earth is reviewed as a profile from the upper mantle to the solid inner core at the centre of the Earth. The upper mantle is by far the most anisotropic region of the Earth, followed the D” layer above the core mantle boundary. In contrast it is shown that many minerals that are present in the upper mantle, transition zone, lower mantle, D” layer and solid inner core are elastically anisotropic to different degrees. The anisotropy of hydrous phases present in subduction zones is briefly introduced. The basic concepts of single crystal and polycrystalline elasticity and the extrapolation of elastic properties to high temperature and pressure are presented. The specific features of elastic wave propagation in an anisotropic medium of any arbitrary symmetry are illustrated using mantle and inner core phases. The roles of crystal preferred orientation, water and melt in producing seismic anisotropy in the upper mantle are discussed.
Journal ArticleDOI
Shear Wave Splitting and Mantle Anisotropy: Measurements, Interpretations, and New Directions
Maureen D. Long,Paul G. Silver +1 more
TL;DR: A review of the state of the art and recent developments in the measurement and interpretation of seismic shear wave splitting can be found in this paper, where the authors provide an overview of data sets from different tectonic settings, show how they help us relate mantle flow to surface tectonics, and discuss new directions that should help to advance the seismic wave splitting field.
Journal ArticleDOI
Pressure sensitivity of olivine slip systems and seismic anisotropy of Earth's upper mantle.
TL;DR: It is shown that high-pressure dislocation creep produces crystal preferred orientations resulting in extremely low seismic anisotropy, consistent with seismological observations below 250 km depth, which raises new questions about the mechanical state of the lower part of the upper mantle and its coupling with layers both above and below.
References
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X-ray line broadening from filed aluminium and wolfram
G.K Williamson,W.H Hall +1 more
TL;DR: In this paper, the authors used a Geiger counter spectrometer to measure the changes in intensity distribution in the spectra of cold worked aluminium and wolfram and found that the line breadths may be attributed to simultaneous small particle size and strain broadening, the latter predominating at the higher Bragg angles.
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Aerosol Technology : Properties, Behavior, and Measurement of Airborne Particles
TL;DR: Properties of Gases Uniform Particle Motion Particle size Statistics Straight-Line Acceleration and Curvilinear Particle motion Adhesion of Particles Brownian Motion and Diffusion Thermal and Radiometric Forces Filtration Sampling and Measurement of Concentration Respiratory Deposition Coagulation Condensation and Evaporation Atmospheric Aerosols Electrical Properties Optical Properties Bulk Motion of aerosols Dust Explosions Bioaerosols Microscopic measurement of Particle Size Production of Test aerosols Appendices Index Index
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Aerosol technology : properties, behavior, and measurement of airborne particles
TL;DR: Aerosol Technology, Second Edition as mentioned in this paper is the #1 guide to aerosol science and technology and has been the text of choice among students and professionals who need to acquire a thorough working knowledge of modern aerosol theory and applications.
Journal ArticleDOI
The Effect of Cold‐Work Distortion on X‐Ray Patterns
B. E. Warren,B. L. Averbach +1 more
TL;DR: In this article, a cosine Fourier series and a set of An coefficients determined by measuring several orders of a given plane is used to obtain a distribution function of the strains directly from a Fourier transform of the An coefficients.
Journal ArticleDOI
The effect of dislocation contrast on x‐ray line broadening: A new approach to line profile analysis
Tamás Ungár,András Borbély +1 more
TL;DR: In this article, the x-ray line profiles of an ultrafine grained copper crystal, produced by equal-channel angular pressing, were measured by a special high resolution diffractometer with negligible instrumental line broadening.
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