Effectiveness of a pilot information service for educational research materials.

Mode of access: Internet.

Summary of work performed pursuant to the development of K-12 alcohol and alcohol safety curriculum materials. Final report.

National Highway Traffic Safety Administration, Washington, D.C.

Small-business problems in the aluminum industry; report of Subcommittee No. 3 on Minerals and Raw Materials, to the Select Committee on Small Business, House of Representatives, Eighty-fifth Congress, second session, pursuant to H. Res. 56.

Mode of access: Internet.

A study of sample size in making decisions about instructional materials /

Project No. 711151.01.

Implementation of a bond model, including dilation, for reinforced materials in a finite element analysis /

Cover title.

Thermal properties of refractory materials.

"Project no. 4776, Task ARPA order 24-60."

Development of criteria to designate routes for transporting hazardous materials /

Mode of access: Internet.

Final reports of the International business conference. Private interprise; raw materials and foodstuffs; encouragement and protection of investments; industrialization in new areas; currency relations among nations; transportation and communications; cartels; commercial policy of nations; also roster of attendance. Westchester country club, Rye, New York, November 10-18, 1944.

Cover-title.

Lists of toxic and non-toxic art and crafts materials.

Cover title.

The laboratory, or, School of arts : containing a large collection of valuable secrets, experiments, and manual operations in arts and manufactures : highly useful to gilders, jewelers, enamellers, goldsmiths, dyers, cutlers, pewterers, joiners, japanners, book binders, plasterers, artists, and to the workers in metals in general, and in plaster of paris, wood, ivory, bone, horn, and other materials /

Mode of access: Internet.

Application of a generalized thermodynamic approach to characterize mesoporous materials

Equilibrium adsorption and desorption in mesoporous adsorbents is considered on the basis of rigorous thermodynamic analysis, in which the curvature-dependent solid-fluid potential and the compressibility of the adsorbed phase are accounted for. The compressibility of the adsorbed phase is considered for the first time in the literature in the framework of a rigorous thermodynamic approach. Our model is a further development of continuum thermodynamic approaches proposed by Derjaguin and Broekhoff and de Boer, and it is based on a reference isotherm of a non-porous material having the same chemical structure as that of the pore wall. In this improved thermodynamic model, we incorporated a prescription for transforming the solid-fluid potential exerted by the flat reference surface to the potential inside cylindrical and spherical pores. We relax the assumption that the adsorbed film density is constant and equal to that of the saturated liquid. Instead, the density of the adsorbed fluid is allowed to vary over the adsorbed film thickness and is calculated by an equation of state. As a result, the model is capable to describe the adsorption-desorption reversibility in cylindrical pores having diameter less than 2 nm. The generalized thermodynamic model may be applied to the pore size characterization of mesoporous materials instead of much more time-consuming molecular approaches. (c) 2005 Elsevier B.V. All rights reserved.

About theExperience of Developing Interactive Dynamic Illustrations for Educational e-Materials

Publication describes the author’s experience in the development of illustrative dynamic materials for eLearning courses. The presented illustrations offer multiply interactive possibilities for a student and powerful flexibility in creating theoretical or control pages for a teacher. Both specialized and universal ways for illuminating of educational materials are discussed. All interactive dynamic illustrations are realized as Java applets, although it is emphasized, that basic ideas are helpful for any other similar technology.

The study of silicates and refractory materials at high pressures and temperatures

To better understand high pressure behavior of solids, both silicates and oxides have been investigated to clarify the high pressure melting, phase transformations and thermal parameters as well as their size dependences, both theoretically and experimentally. ^ To judge the precision of data determined experimentally, the reliabilities of different high pressure techniques have been discussed. A thermodynamic model has been developed and demonstrated to be able to closely reproduce the melting of solids by comparison between results calculated and data obtained experimentally, including metals (Al, Ni and Pt), Silicates (Mg3Al 2Si3O12 and CaMgSi2O6), Halides (NaCl, CsCl and LiF) and Oxides (MgO, FeO and Al2O3). The melting data obtained have been discussed to address the dynamics of the Earth's interior. ^ Results obtained with Raman spectroscopy and x-ray diffraction show that solids including silicates (andradite and pyrope) and oxides (CeO2 and TiO2) undergo a series of pressure-induced phase transformations. The effects of particle size under high pressures have been investigated. The results obtained indicate that the reduction of particle size leads to the enhancement of the bulk modulus and a significant decrease of transition pressure in TiO2 (rutile) and CeO2. The pressure-induced amorphization in anatase also results from the size effects. ^ Combining the data obtained with global seismic tomography, the physics and chemistry of the Earth's mantle and the dynamics of the core-mantle interaction have been discussed. The high pressure phases of Al3+- and Fe3+-bearing minerals play important roles in the dynamics of the lower mantle. ^