Titan water

Common commercial crystallized carbon a ta of soda contains a still greater proportion of water titan the salt last named. These crystals are a combination of ono equivalent of carbonate of soda with ten equivalent of water, and are consequently represented by the foimula Na 0, CO, 10HO. They are formed from a moderately concentrated solution, at a temperature below 92°. Their crystelline form is that of tho oblique prism.. . 

It is seen that the equilibrium for the reaction of methoxide with water lies much farther to the right (Keq = 10) than the reaction of ammonia with water (Keq = 10-6). Clearly methoxide is much better at removing a proton from water titan is ammonia by about 107. Therefore methoxide is a stronger base by about 107 titan ammonia. 

The presence of Ti02 particles was demonstrated by dynamic light scattering measurements on solutions of titanium triethanolamine (Tyzor TE, Du Pont) mixed with water (6). These water-titanate solutions were used as cross-linkers for HPG solutions (24). Figure 5 shows the growth of approximately 20-A particles over a period of 4 h. The particle size was stable over this period and only slowly grew to 40 A over 24 h. This small particle size led to solutions that were water-clear. To show that the particles are stabilized by electrostatic forces, we added KCl to the solution after aging... 

Fig. X-4. Water contact angle of titania-coated glass after treatment with trimethyloc-tadecylammonium chloride as a function of the number of coating treatments with 1.1% polydibutyl titanate. (From Ref. 51.)...

PEAT-EXCHANGE TECHNOLOGY - HEAT-TRANSFERTffiDIA OTTiER TITAN WATER] (Vol 12)... 

Another important class of titanates that can be produced by hydrothermal synthesis processes are those in the lead zirconate—lead titanate (PZT) family. These piezoelectric materials are widely used in manufacture of ultrasonic transducers, sensors, and minia ture actuators. The electrical properties of these materials are derived from the formation of a homogeneous soHd solution of the oxide end members. The process consists of preparing a coprecipitated titanium—zirconium hydroxide gel. The gel reacts with lead oxide in water to form crystalline PZT particles having an average size of about 1 ]lni (Eig. 3b). A process has been developed at BatteUe (Columbus, Ohio) to the pilot-scale level (5-kg/h). 

Because lactic acid has both hydroxyl and carboxyl functional groups, it undergoes iatramolecular or self-esterificatioa and forms linear polyesters, lactoyUactic acid (4) and higher poly(lactic acid)s, or the cycUc dimer 3,6-dimethyl-/)-dioxane-2,5-dione [95-96-5] (dilactide) (5). Whereas the linear polyesters, lactoyUactic acid and poly(lactic acid)s, are produced under typical condensation conditions such as by removal of water ia the preseace of acidic catalysts, the formation of dilactide with high yield and selectivity requires the use of special catalysts which are primarily weakly basic. The use of tin and ziac oxides and organostaimates and -titanates has been reported (6,21,22). 

Lead antimonate [13510-89-9] (Naples yellow), Pb2(Sb0 2> mol wt 993.07, d = 6.58g/cm, is an orange-yeUow powder that is insoluble in water and dilute acids, but very slightly soluble in hydrochloric acid. Lead antimonates are modifiers for ferroelectric lead titanates, pigments in oil-base paints, and colorants for glasses and glazes (see Colorants for ceramics). They are made by the reaction of lead nitrate and potassium antimonate solutions, followed by concentration and crystallization. 

Lead zirconate [12060-01 -4] PbZrO, mol wt 346.41, has two colorless crystal stmctures a cubic perovskite form above 230°C (Curie point) and a pseudotetragonal or orthorhombic form below 230°C. It is insoluble in water and aqueous alkaUes, but soluble in strong mineral acids. Lead zirconate is usually prepared by heating together the oxides of lead and zirconium in the proper proportion. It readily forms soHd solutions with other compounds with the ABO stmcture, such as barium zirconate or lead titanate. Mixed lead titanate-zirconates have particularly high piezoelectric properties. They are used in high power acoustic-radiating transducers, hydrophones, and specialty instmments (146). 

Strontium Titanate. Strontium titanate [12060-59-2], SrTiO, is a ceramic dielectric material that is insoluble in water and has a specific gravity of 4.81. It is made from strontium carbonate and is used in the form of 0.5-mm thick disks as electrical capacitors in television sets, radios, and computers. 

Titanous oxychloride forms yellow tablets, is inert in mineral acids and water and also stable in air. When heated in air, it gives titanium tetrachloride and titanium dioxide. 

Titanium Dhodide. Titanium diiodide is a black soHd p = 499(0) kg/m ) that has the cadmium iodide stmcture. Titaniums occupy octahedral sites in hexagonaHy close-packed iodine layers, where a = 411 pm and c = 682 pm (144). Magnetic studies indicate extensive Ti—Ti bonding. Til2 reacts rapidly with water to form a solution of titanous iodide, Til. ... 

Titanium Sulfates. Solutions of titanous sulfate [10343-61-0] ate readily made by reduction of titanium(IV) sulfate ia sulfuric acid solutioa by electrolytic or chemical means, eg, by reduction with ziac, ziac amalgam, or chromium (IT) chloride. The reaction is the basis of the most used titrimetric procedure for the determination of titanium. Titanous sulfate solutions are violet and, unless protected, can slowly oxidize ia coatact with the atmosphere. If all the titanium has been reduced to the trivalent form and the solution is then evaporated, crystals of an acid sulfate 3 Ti2(S0 2 [10343-61-0] ate produced. This purple salt, stable ia air at aormal temperatures, dissolves ia water to give a stable violet solutioa. Whea heated ia air, it decomposes to Ti02, water, sulfuric acid, and sulfur dioxide. 

Similar ester carboxylate group containing polymeric titanate esters are obtained by the reaction of titanoxanes with carboxyUc acids (26), by reaction of a tetraalkyl titanate with a carboxyUc acid and 1—2 moles of water (27), or by reacting a polymeric metal acylate with a higher boiling carboxyUc acid and removing the lower boiling carboxyUc acid by distillation (28). 

The polymeric acyl titanate esters are viscous Hquids or waxes that are soluble ia hydrocarbon solvents and can be used as Ti02-dispersiag agents, water-repellent agents for textile fabrics, and mst inhibitors for steel. 

Organic-solvent-soluble, higher molecular weight polytitanoxanes, having a proposed mdder-shaped stmcture, can be prepared by careful addition of an alcohol solution of 1.0—1.7 moles of water per mole of tetraalkyl titanate, followed by distillation of the low boiling alcohol components. Polytitanoxanes having molecular weights up to 20,000 have been prepared by this method (31). 

The 1 1 molar addition products of a primary diol and a tetraaLkyl titanate, Ti(OGO)(OR)2 may react with water to give either Ti(OGO)(OH)2 or condensed products (Ti(OGO)O), which can be used as esterification catalysts (64). 

Solvent-soluble polymeric products of stmctures (1 3) can be obtained upon reaction of tetraaLkyl titanate, 2-methyl- -pentane-2,4-diol, and water in a 2 4 1 molar ratio (71). The tetraptimary glycol titanate complexes have been used as catalysts for the production of polyisocyanurates and polyoxa2ohdones (72). 

Reaction of 2,4-diorgano-l,3-diols, such as 2-ethylhexane-l,3-diol, with TYZOR TPT in a 2 1 molar ratio gives the solvent soluble titanate complex, TYZOR OGT [5575-43-9] (4) (73). If the reaction is conducted in an inert solvent, such as hexane, and the resultant slurry is treated with an excess of water, an oligomeric hydrolysis product, also solvent-soluble, is obtained (74). 

Products similar to (4) are obtained if one starts with TiCl instead of a tetraaLkyl titanate (75). These products are useful as adhesives (qv), as textile-treating agents to impart water repeUency, and as coatings and sizes for treating paper. 

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