Terminologies, surface

ISO 4287, Part 1, Surface roughness terminology, surface and its parameters, 1984. 

Surface roughness terminology surface and its parameters Surface character geometrical characteristics of surface texture terms, definitions, symbols... 

The equations of electrocapillarity become complicated in the case of the solid metal-electrolyte interface. The problem is that the work spent in a differential stretching of the interface is not equal to that in forming an infinitesimal amount of new surface, if the surface is under elastic strain. Couchman and co-workers [142, 143] and Mobliner and Beck [144] have, among others, discussed the thermodynamics of the situation, including some of the problems of terminology. 

A number of glossaries of terms and symbols used in the several branches of chemistry have been pubHshed. They include physical chemistry (102), physical—organic chemistry (103), and chemical terminology (other than nomenclature) treated in its entirety (104). lUPAC has also issued recommendations in the fields of analytical chemistry (105), coUoid and surface chemistry (106), ion exchange (107), and spectroscopy (108), among others. 

Surface activity is not limited to aqueous systems, however. AH of the combiaations of aqueous and nonaqueous phases are known to occur, but because water is present as the solvent phase in the overwhelming proportion of commercially important surfactant systems, its presence is assumed in much of the common terminology of industry. Thus, the water-soluble amphipathic groups are often referred to as solubilizing groups. 

Without taking into consideration the soil surface, the current density 7(r) at a distance r from the pipe axis for a pipeline (pipe diameter, d) with a protection current density J expressed in the terminology of Fig. 24-4 and corresponding to Eq. (24-4), is given by ... 

Therefore, one might ask what is meant by the terms hquid and gas. We all know what is the characteristic of a liquid. It has a free surface. However, as soon as we compress the hquid, there is no free surface and the distinction between a gas and liquid is lost. The most logical terminology would be to reserve the terms hquid and vapor for the two coexisting phases and call all other states fluid. A more common terminology is to call the fluid a hquid if its density exceeds the critical density and a gas if its density is lower. Generally speaking, in this chapter we will use the term fluid to describe both the gas and liquid phases and not make any distinction. 

In a fundamental sense, the miscibility, adhesion, interfacial energies, and morphology developed are all thermodynamically interrelated in a complex way to the interaction forces between the polymers. Miscibility of a polymer blend containing two polymers depends on the mutual solubility of the polymeric components. The blend is termed compatible when the solubility parameter of the two components are close to each other and show a single-phase transition temperature. However, most polymer pairs tend to be immiscible due to differences in their viscoelastic properties, surface-tensions, and intermolecular interactions. According to the terminology, the polymer pairs are incompatible and show separate glass transitions. For many purposes, miscibility in polymer blends is neither required nor de-... 

Detailed and shorter39 45 reviews of the electrochemical promotion literature prior to 1996 have been published, mainly addressed either to the catalytic or to the electrochemical community. Earlier applications of solid electrolytes in catalysis, including solid electrolyte potentiometry and electrocatalysis have been reviewed previously. The present book is the first on the electrochemical activation of catalytic reactions and is addressed both to the electrochemical and catalytic communities. We stress both the electrochemical and catalytic aspects of electrochemical promotion and hope that the text will be found useful and easy to follow by all readers, including those not frequently using electrochemical, catalytic and surface science methodology and terminology. 

In the previous sections, we have seen how computer simulations have contributed to our understanding of the microscopic structure of liquid crystals. By applying periodic boundary conditions preferably at constant pressure, a bulk fluid can be simulated free from any surface interactions. However, the surface properties of liquid crystals are significant in technological applications such as electro-optic displays. Liquid crystals also show a number of interesting features at surfaces which are not seen in the bulk phase and are of fundamental interest. In this final section, we describe recent simulations designed to study the interfacial properties of liquid crystals at various types of interface. First, however, it is appropriate to introduce some necessary terminology. 

The terminology of L-B films originates from the names of two scientists who invented the technique of film preparation, which transfers the monolayer or multilayers from the water-air interface onto a solid substrate. The key of the L-B technique is to use the amphiphih molecule insoluble in water, with one end hydrophilic and the other hydrophobic. When a drop of a dilute solution containing the amphiphilic molecules is spread on the water-air interface, the hydrophilic end of the amphiphile is preferentially immersed in the water and the hydrophobic end remains in the air. After the evaporation of solvent, the solution leaves a monolayer of amphiphilic molecules in the form of two-dimensional gas due to relatively large spacing between the molecules (see Fig. 15 (a)). At this stage, a barrier moves and compresses the molecules on the water-air interface, and as a result the intermolecular distance decreases and the surface pressure increases. As the compression from the barrier proceeds, two successive phase transitions of the monolayer can be observed. First a transition from the gas" to the liquid state. 

In the direct adsorption process, the ground state of the atom is in the three-dimensional space above the surface (we apologize for the somewhat counter-intuitive terminology of using ground state for a molecule above the surface). The transition state is the fully immobilized atom on the surface site, which is not allowed to move around... 

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