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Sols, examples

Various raw materials can be used in the manufacturing of monodis-persed sol. Examples of these materials include silicon metals (6), silicon tetrachloride (7), ethyl silicate (8), water glass (2), and silica powder (9). In this chapter, I focus attention on the preparation of monodispersed sols from water glass, a raw material that is presently used in large amounts industrially for the inexpensive production of silica sols. [Pg.62]

Carboxylate groups are hydrophilic ( water loving ) and tend to confer water sol ubility on species that contain them Long hydrocarbon chains are lipophilic ( fat loving ) and tend to associate with other hydrocarbon chains Sodium stearate is an example of an amphiphilic substance both hydrophilic and lipophilic groups occur within the same molecule... [Pg.800]

The coefficient Tj is termed the modulus of rigidity. The viscosities of thixotropic fluids fall with time when subjected to a constant rate of strain, but recover upon standing. This behavior is associated with the reversible breakdown of stmctures within the fluid which are gradually reestabflshed upon cessation of shear. The smooth sprea ding of paint following the intense shear of a bmsh or spray is an example of thixotropic behavior. When viscosity rises with time at constant rate of strain, the fluid is termed rheopectic. This behavior is much less common but is found in some clay suspensions, gypsum suspensions, and certain sols. [Pg.96]

When the reaction mixtures are prepared from colloidal siUca sol or amorphous siUca, additional 2eohtes may form which do not readily crystalline from the homogeneous sodium siUcate—alurninosiUcate gels. The temperature strongly influences the crystallization time of even the most reactive gels for example, zeoHte X crystallizes in 800 h at 25°C and in 6 h at 100°C. [Pg.452]

In the absence of a suitable soHd phase for deposition and in supersaturated solutions of pH values from 7 to 10, monosilicic acid polymerizes to form discrete particles. Electrostatic repulsion of the particles prevents aggregation if the concentration of electrolyte is below ca 0.2 N. The particle size that can be attained is dependent on the temperature. Particle size increases significantly with increasing temperature. For example, particles of 4—8 nm in diameter are obtained at 50—100°C, whereas particles of up to 150 nm in diameter are formed at 350°C in an autoclave. However, the size of the particles obtained in an autoclave is limited by the conversion of amorphous siUca to quartz at high temperatures. Particle size influences the stabiUty of the sol because particles <7 nm in diameter tend to grow spontaneously in storage, which may affect the sol properties. However, sols can be stabilized by the addition of sufficient alkaU (1,33). [Pg.489]

Production of net-shape siUca (qv) components serves as an example of sol—gel processing methods. A siUca gel may be formed by network growth from an array of discrete coUoidal particles (method 1) or by formation of an intercoimected three-dimensional network by the simultaneous hydrolysis and polycondensation of a chemical precursor (methods 2 and 3). When the pore Hquid is removed as a gas phase from the intercoimected soHd gel network under supercritical conditions (critical-point drying, method 2), the soHd network does not coUapse and a low density aerogel is produced. Aerogels can have pore volumes as large as 98% and densities as low as 80 kg/m (12,19). [Pg.249]

This equation is based on the approximation that the penetration is 800 at the softening point, but the approximation fails appreciably when a complex flow is present (80,81). However, the penetration index has been, and continues to be, used for the general characteristics of asphalt for example asphalts with a P/less than —2 are considered to be the pitch type, from —2 to +2, the sol type, and above +2, the gel or blown type (2). Other empirical relations that have been used to express the rheological-temperature relation are fluidity factor a Furol viscosity P, at 135°C and penetration P, at 25°C, relation of (H—P)P/100 and penetration viscosity number PVN again relating the penetration at 25°C and kinematic viscosity at 135 °C (82,83). [Pg.369]

There is also growing iaterest ia thin-film dielectric capacitors. For example, through the use of processiag techniques such as sol—gel solution deposition, thin (--- 0.25 fim) ceramic layers having dielectric constants ranging from 500 to 2000 ia the PZT, Pb(Zr,Ti)03, and PMN—PT, Pb(Mn2 3Nb2 3)03-PbTi03, compositional families respectively, have been prepared (3). [Pg.343]

Hydrolysis of metal-organic solutions Example. Ba(OC3H7)2 + Ti(OC5Hu)4 + H2O — BaTiOs (Barium isopropoxide and Titanium tertiary amyloxide are refluxed in isopropanol and then hydrolyzed with de-ionized water to produce a sol-gel. ... [Pg.235]

Despite the progress outlined in this chapter, much work remains to be done in the metal surface preparation arena. For example, there is still no ideal surface preparation method that does for steel what anodization processes do for aluminum and titanium. The plasma spray process looks encouraging but because it is slow for large areas and requires rather expensive robot controlled plasma spray equipment, its use will probably be limited to some rather special applications. For more general use, the sol-gel process has potential if future studies confirm recently reported results. [Pg.1002]

The dispersion (or sols) are only slightly viscous. Examples sols of metals, silver halides, metallic sulphides, etc. [Pg.419]

The dispersions are very viscous they set to jelly-like masses known as gels. Examples sols of silicic acid, tin(IV) oxide, gelatin. [Pg.419]

The superiority of LiAsF6 in ether based solvents (2-Me-THF, THF, MeF) at lithium electrodes is an example of the formation of useful protecting films (As, Li2 As, Li (AsFv) allowing uniform lithium deposition [195], According to Aur-bach and co-workers, LiAsF6/2 - Me -THF is a highly suitable electrolyte for rechargeable lithium batteries. However, as 2-Me-THF is one of the least reactive sol-... [Pg.484]

Properties. It is very sol in nitric ac and may be reciystd from this solv (Ref 7). It is a strong oxidizing and nitrating agent, and flames or explds on contact with org compds. In soln in NMe it is less reactive and can be used in this solv as a nitrating agent. Benz, for example, is instantly nitrated to NB on contact with a NMe... [Pg.640]

Kharichkov (Ref 3) nitrated some machine and spindle oils, obtained from Russian mazut (qv) by moderately warming with coned nitric acid (d 1.50g/cc), and obtained thick, very viscous syrups, sol in benz, which can be used for separating them from the excess oil. By dissolving the nitrated products and pptg with w, he was able to obtain several fractions of varying d and N content. For example, one of the fractions contained N=6.66%, its d was 1.103 g/cc and its mp 52—54°... [Pg.698]

See other pages where Sols, examples is mentioned: [Pg.16]    [Pg.119]    [Pg.16]    [Pg.119]    [Pg.103]    [Pg.188]    [Pg.299]    [Pg.345]    [Pg.410]    [Pg.297]    [Pg.613]    [Pg.757]    [Pg.1]    [Pg.3]    [Pg.3]    [Pg.8]    [Pg.9]    [Pg.207]    [Pg.318]    [Pg.328]    [Pg.477]    [Pg.483]    [Pg.497]    [Pg.6]    [Pg.123]    [Pg.248]    [Pg.252]    [Pg.529]    [Pg.148]    [Pg.401]    [Pg.136]    [Pg.983]    [Pg.71]    [Pg.26]    [Pg.27]    [Pg.644]   
See also in sourсe #XX -- [ Pg.6 ]



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Examples of Sol-Gel Deposited Ultrathin Dielectric Films

Relevant Examples in the Field of Sol-Gel Materials

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