Experimental techniques in mineral and rock physics : the Schreiber volume

Knowledge of the relation between sonic velocity in sediments and rock lithology is one of the keys to interpreting data from seismic sections or from acoustic logs of sedimentary sequences. Reliable correlations of rock velocity with other petrophysical parameters, such as porosity or density, are essential for calculating impedance models for synthetic seismic sections (BIDDLE et al. , 1992; CAMPBELL and STAFLEU, 1992) or identifying the origin of reflectivity on seismic lines (SELLAMI et al. , 1990; CHRISTENSEN and SZYMANSKI, 1991). Velocity is thus an important parameter for correlating lithological with geophysical data. Recent studies have increased our understanding of elastic rock properties in siliciclastic or shaly sediments. The causes for variations in velocity have been investigated for siliciclastic rocks (VERNIK and NUR, 1992), mixed carbonate siliciclastic sediments (CHRISTENSEN and SZYMANSKI, 1991), synthetic sand-clay mixtures (MARION et aI. , 1992) or claystones (JAPSEN, 1993). The concepts derived from these studies are however only partly applicable in pure carbonates. Carbon ates do not have large compositional variations that are, as is the case in the other sedimentary rocks, responsible for velocity contrasts. Pure carbonates are character ized by the lack of any clay or siliciclastic content, but are mostly produced and deposited on the top or on the slope of isolated or detached carbonate platforms, that have no hinterland as a source of terrigeneous material (WILSON, 1975; EBERLI, 1991).

• Introduction, R. C. Liebermann and C. H. Sondergeld
• Reflections on the career of Edward Schreiber, R. C. Liebermann and W. A. Bassett
• Publications of Edward Schreiber. Part 1 Rocks and Rock Properties: Experimental simulation of plagioclase diagenesis at P-T conditions up to 3.5 km burial depth, S. L Kamer and B. C Schreiber
• A new exploration tool: Quantitative core characterization, C H. Sondergeld and C S. Rai
• Quasi-static poroelelastic parameters in rocks and their geophysical applications, H. F. Wang
• Controls on sonic velocity in carbonates, F. S. Anselmetti and G. P. Eberli. Part 2 Acoustic Studies of the Elasticity and Equation of State of Minerals: Accuracy in measurements and the temperature and volume dependence of thermoelastic parameters, 0. L Anderson and D. G.Issak
• A new ultrasonic interferometer for the determination of equation of state parameters of sub-millimeter single crystals, H. Spetzler, G. Chen, S. Whitehead and I.C. Getting
• Performance of the complete travel time equation of state at simultaneous pressure and temperature, H. Spetzler and A. Yoneda
• The elastic properties of single crystal fayalite as determined by dynamical measurement techniques, D. G. Isaak, E K. Graham, J. D. Bass and H. F. Wang
• Effects of cation disordering in a natural MgAI204 spinel observed by rectangular parallelpiped ultrasonic resonance and Raman measurements, H. Cynn, 0. L Anderson and M. Nicol
• A high-pressure, high-temperature apparatus for studies of seismic wave dispersion and attenuation, I. Jackson and M. S. Paterson
• Hot-pressing of polycrystals of high-pressure phases of mantle minerals in multi-anvil apparatus, G. D. Gwanmesia, B. Li and R. C. Liebermann. Part 3 Diamond-Anvil Cell Experiments: Hydrothermal studies in a new diamond anvil cell up to 1 0 GPa and from - 190 to 1100 C, W A. Bassett, A. H. Shen, M. Bucknum and I-M. Chou
• Thermal analysis in the laser heated diamond anvil cell, J. S. Sweeney and D. L. Heinz
• Measuring deviatoric stress in a diamond anvil cell, T Wu and W A. Bassett. Part 4 Rheological Investigations: Improvements to Griggs-type apparatus for mechanical testing at high pressures and temperatures, T N. Tingle, H. W Green, T. A. Young and T. A. Koczynski
• The strength and rheology of commercial tungsten carbide cermets used in high pressure apparatus, I.C. Getting, G. Chen and J. A. Brown
• The large volume multianvil press as a high P-T deformation apparatus, G. Y. Bussod, T. Katsura and D. C. Rubie
• The use of sintered diamond anvils in the MA8-type, high-pressure apparatus, T Kondo, H. Sawamoto, A. Yoneda, M. Kato, A. Matsumuro, T Yagi, and T. Kikegawa. Part 5 Advances In High Pressure Calorimetry, Diffusion, Sealing and Calibration: Differential scanning calorimetry in a piston-cylinder apparatus: design and calibration, R.P. Rapp and A. Navrotsky
• A thin film approach to producing mineral diffusion couples, C S. Schwandt, R. T. Cygan and H R. Westrich
• Determination of phase