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Specific Material Systems

Simulation is confined to specific material systems. Real processes are often far more complex... [Pg.120]

The limits of integration are the oxygen partial pressures maintained at the gas phase boundaries. Equation (10.10) has general validity for mixed conductors. To carry the derivation further, one needs to consider the defect chemistry of a specific material system. When electronic conductivity prevails, Eqs. (10.9) and (10.10) can be recast through the use of the Nemst-Einstein equation in a form that includes the oxygen self-diffusion coefficient Dg, which is accessible from ionic conductivity measurements. This is further exemplified for perovskite-type oxides in Section 10.6.4, assuming a vacancy diffusion mechcinism to hold in these materials. [Pg.451]

The nucleation rate, growth rate, and transformation rate equations that we developed in the preceding sections are sufficient to provide a general, semiquantitative understanding of nucleation- and growth-based phase transformations. However, it is important to understand that the kinetic models developed in this introductory text are generally not sufficient to provide a microstructurally predictive description of phase transformation for a specific materials system. It is also important to understand that real phase transformation processes often do not reach completion or do not attain complete equilibrium. In fact, extended defects such as grain boundaries or pores should not exist in a true equilibrium solid, so nearly all materials exist in some sort of metastable condition. Many phase transformation processes produce microstructures that depart wildly from our equilibrium expectation. The limited atomic mobilities associated with solid-state diffusion can frequently cause (and preserve) such nonequilibrium structures. In this section, we will focus more deeply on solidification (a liquid-solid phase transformation) as a way to discuss some of these issues. In particular, we will examine a few kinetic concepts/models... [Pg.232]

Documentation and Specifications. The ML-PWB design documentation should specify the specific material system to be used in the fabrication. Typically materials are identified... [Pg.651]

In the last two sections, we have considered in a general way the mechanism of charge storage and the electrical response we might expect for different types of systems. In the next three sections, we will consider the properties of specific materials systems and try to relate those properties to the earlier discussion. [Pg.322]

An even coarser description is attempted in Ginzburg-Landau-type models. These continuum models describe the system configuration in temis of one or several, continuous order parameter fields. These fields are thought to describe the spatial variation of the composition. Similar to spin models, the amphiphilic properties are incorporated into the Flamiltonian by construction. The Flamiltonians are motivated by fiindamental synnnetry and stability criteria and offer a unified view on the general features of self-assembly. The universal, generic behaviour—tlie possible morphologies and effects of fluctuations, for instance—rather than the description of a specific material is the subject of these models. [Pg.2380]

Regardless of the configuration or the specific material sampled, several characteristics are important for all ambient air sampling systems. These are collection efficiency, sample stability, recovery, minimal interference, and an understanding of the mechanism of collection. Ideally, the first three would be 100% and there would be no interference or change in the material when collected. [Pg.180]

Metal Oxide - Since metals are less electrophilic than silicon, metal oxide adsorbents show even stronger selectivity for polar molecules than do siliceous materials. The most commonly used metal oxide adsorbent is activated alumina, used primarily for gas drying. Occasionally, metal oxides find applications in specific chemisorption systems. For example, several processes are under development utilizing lime or limestone for removal of sulfur oxides from flue gases. Activated aluminas have surface areas in the range of 200 to 1,000 ftVft Average pore diameters range from about 30 to 80 A. [Pg.468]

The development of the internal orientation in formation in the fiber of a specific directional system, arranged relative to the fiber axis, of structural elements takes place as a result of fiber stretching in the production process. The orientation system of structural elements being formed is characterized by a rotational symmetry of the spatial location of structural elements in relation to the fiber axis. Depending on the type of structural elements being taken into account, we can speak of crystalline, amorphous, or overall orientation. The first case has to do with the orientation of crystallites, the second—with the orientation of segments of molecules occurring in the noncrystalline material, and the third—with all kinds of structural constitutive elements. [Pg.844]

As reviewed in other chapters, different plastics have different melt and flow characteristics. What is used in a mold design for a specific material may thus require a completely different type of mold for another material. These two materials might, for instance, be of the same plastic but use different proportions of additives and reinforcements. This situation is no different than that of other materials like steel, ceramics, and aluminum. Each material will require its own cavity shapes and possibly have its own runner system. [Pg.182]

To clarify the laws of scale, investigations were conducted in geometrically strictly similar tanks having volumes V = 20,50, and 7301. For the same specific power, both the floe disintegration kinetics (Fig. 3) and the reference floe diameter (see Fig. 21) produce similar numerical values for all three scales. The same was also found for the other material systems. [Pg.70]

Materials with uniform pore structures offer a wide range of applications, including catalysis, adsorption, and separation. These materials have the benefit ofboth specific pore systems and intrinsic chemical properties [1-3]. The pores in the materials are able to host guest species and provide a pathway for molecule transportation. The skeletal pore walls provide an active and/or affinity surface to associate with guest molecules. According to the International Union of Pure and Applied Chemistry (IUPAC), porous materials can be classified into three main categories based on the diameters of their pores, that is, microporous, mesoporous, and macroporous... [Pg.209]

See other pages where Specific Material Systems is mentioned: [Pg.364]    [Pg.419]    [Pg.11]    [Pg.404]    [Pg.78]    [Pg.3660]    [Pg.1809]    [Pg.227]    [Pg.285]    [Pg.552]    [Pg.316]    [Pg.346]    [Pg.263]    [Pg.181]    [Pg.120]    [Pg.323]    [Pg.364]    [Pg.419]    [Pg.11]    [Pg.404]    [Pg.78]    [Pg.3660]    [Pg.1809]    [Pg.227]    [Pg.285]    [Pg.552]    [Pg.316]    [Pg.346]    [Pg.263]    [Pg.181]    [Pg.120]    [Pg.323]    [Pg.1265]    [Pg.1384]    [Pg.50]    [Pg.520]    [Pg.153]    [Pg.162]    [Pg.188]    [Pg.307]    [Pg.68]    [Pg.276]    [Pg.313]    [Pg.259]    [Pg.522]    [Pg.377]    [Pg.154]    [Pg.288]    [Pg.11]    [Pg.73]    [Pg.332]    [Pg.297]    [Pg.34]   


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Materials specifications

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Specification of a material points system

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