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Paints alkyd

Alkoxysilanes Alkyd coatings Alkyd paints Alkyd resins... [Pg.28]

For the most part, additives control the appHcation or theological properties of a paint. These additives include materials for latex paints such as hydroxyethylceUulose, hydrophobicaHy modified alkah-soluble emulsions, and hydrophobicaHy modified ethylene oxide urethanes. Solvent-based alkyd paints typically use castor oil derivatives and attapulgite and bentonite clays. The volume soHds of a paint is an equally important physical property affecting the apphcation and theological properties. Without adequate volume soHds, the desired appHcation and theological properties may be impossible to achieve, no matter how much or many additives are incorporated into the paint. [Pg.543]

Zirconium tetrafluoride [7783-64-4] is used in some fluoride-based glasses. These glasses are the first chemically and mechanically stable bulk glasses to have continuous high transparency from the near uv to the mid-k (0.3—6 -lm) (117—118). Zirconium oxide and tetrachloride have use as catalysts (119), and zirconium sulfate is used in preparing a nickel catalyst for the hydrogenation of vegetable oil. Zirconium 2-ethyIhexanoate [22464-99-9] is used with cobalt driers to replace lead compounds as driers in oil-based and alkyd paints (see Driers and metallic soaps). [Pg.433]

An appHcation where latex paints show outstanding performance is over masonry such as stucco or ciader block constmction. This performance results from saponification resistance ia the preseace of the alkaH from the cement. Furthermore because masoary surfaces are porous, having both small and large pores, the low viscosity external phase of a latex paint can penetrate rapidly iato the small pores, causiag a rapid iacrease ia the viscosity of the remaining paiat. The bulk paiat, ia turn, sinks iato the larger holes more slowly than a solution-based paint. Thus less latex paint is required to cover the same surface area as compared to alkyd paints. [Pg.351]

There are limitations to the appHcabiHty of exterior latex house paints providing a small continuing market for oil or alkyd exterior house paints. Because film formation from latex paints occurs by coalescence, there is a temperature limit, below which the paint should not be appHed. This temperature can be varied by choice of the T of the latex polymer and the amount of coalesciag agent ia the formula. Ia the United States, most latex paints are formulated for appHcation at temperatures above 5—7°C. If painting must be done when the temperature is below 5—7°C, oil or alkyd paint is preferable. [Pg.351]

Gloss Enamels. In contrast to exterior and flat wall paint, about half of the gloss paint or enamels sold are based on alkyd resins. Professional painters particularly favor the continued use of alkyd gloss paints. The need for reduction of VOC emission levels, especially in California, has led to efforts to increase the soflds content of alkyd paints or overcome the disadvantages of latex gloss paints. [Pg.352]

Eor water-based alkyd paints, greater (0.2% cobalt on a resin basis) concentrations of drier are required than for other systems because the reaction of the drier with water decreases the activity of the catalyst. The cobalt content of oil-based paint formulations is usually 0.01—0.05% cobalt. Although the concentration of cobalt in the formulations is small, the large volume of paints, inks, and varnishes constitute a significant use for cobalt chemicals. [Pg.381]

Thermoplastic polyamides are used in coatings to modify alkyd resins (qv) in thixotropic systems (238) and to plasticize nitroceUulose lacquers (239). DETA-taH oil fatty acid-based polyamides are suggested for use as corrosion inhibitors in alkyd paints (240). Printing inks for fiexo-gravure appHcation on certain paper, film and foil webs rely on EDA- and PDA-based polyamides for their specific performance (241). [Pg.47]

Fig. 14.2 Relationship between the logarithm of the resistance of D and / Aims of a penta-erythritol alkyd paint, containing 6-1% iron oxide by volume, and the concentration of the potassium chloride solutions in which they were immersed (courtesy Bril. Polym. J., 3, 41... Fig. 14.2 Relationship between the logarithm of the resistance of D and / Aims of a penta-erythritol alkyd paint, containing 6-1% iron oxide by volume, and the concentration of the potassium chloride solutions in which they were immersed (courtesy Bril. Polym. J., 3, 41...
Figure 3.7 DMTA spectrum for an alkyd paint film attached to an aluminium substrate, Tg = 43.5 °C... Figure 3.7 DMTA spectrum for an alkyd paint film attached to an aluminium substrate, Tg = 43.5 °C...
In the laboratory, alkyd paints are preferable due to their durability and cleanability. Although latex paints have come a long way since their development, they do not measure up to the alkyd variety in laboratory applications. The popular latex enamels, in particular, are inferior to a good alkyd enamel. They are hard to apply smoothly and they pick up dirt far too fast. [Pg.67]

The laboratory operator specified semi-gloss alkyd paint, despite... [Pg.149]

The initial drying of currently applied alkyd paints is accomplished by evaporation of solvent (physical drying). Subsequently, the eventual curing of the alkyd paint is completed by the formation of a polymer network, which is mainly formed by chemical crosslinks (oxidative drying) but in some cases also physical interactions between the fatty acid side chains occur, such as crystallization or proton-bridge formation [129]. Efficient network formation is crucial in the formation of dry films with good mechanical properties. Due to the presence of unsaturated units in the investigated LOFA- and TOFA-PHA bin-... [Pg.275]

Table 4. Formulation and Cluing Conditions of Poly(HAMCL) Alkyd Paints... Table 4. Formulation and Cluing Conditions of Poly(HAMCL) Alkyd Paints...
Fig. 4. Flexibility of poly(HAMCL) alkyd paints, visualized by conical mandrel bending test... Fig. 4. Flexibility of poly(HAMCL) alkyd paints, visualized by conical mandrel bending test...
Figure 12.12 THM GC/MS curves of a Winsor Newton lemon alkyd paint (a) and of an alkyd sample taken from Fontana s work Concetto spaziale (1961) (b). Peak assignments 1, 1,3 dimethoxy 2 propanol 2, 1,2,3 trimethoxy propane 3, 3 methoxy 1,2 propandiol 4, 4 chloro benzenamine 5, 3 methoxy 2,2 bis(methoxymethyl) 1 propanol 6, 3 chloro N methyl benzenamine 7, 3 methoxy 2 methoxymethyl 1 propanol 8, 4 chloro N methyl benzenamine 9, phthalic anhydride 10, 3 chloro 4 methoxy benzenamine 11, suberic acid dimethyl ester 12, dimethyl phthalate 13, azelaic acid dimethyl ester 14, sebacic acid dimethyl ester 15, palmitic acid methyl ester 16, oleic acid methyl ester 17, stearic acid methyl ester 18, 12 hydroxy stearic acid methyl ester 19, 12 methoxy stearic acid methyl ester 20, styrene 21, 2 (2 methoxyethoxy) ethanol 22, 1,1 oxybis(2 methoxy ethane) 23, benzoic acid methyl ester 24, adipic acid dimethyl ester 25, hexadecenoic acid methyl ester 26, dihydroisopimaric acid methyl ester 27, dehydroabietic acid methyl ester 28, 4 epidehydroabietol... Figure 12.12 THM GC/MS curves of a Winsor Newton lemon alkyd paint (a) and of an alkyd sample taken from Fontana s work Concetto spaziale (1961) (b). Peak assignments 1, 1,3 dimethoxy 2 propanol 2, 1,2,3 trimethoxy propane 3, 3 methoxy 1,2 propandiol 4, 4 chloro benzenamine 5, 3 methoxy 2,2 bis(methoxymethyl) 1 propanol 6, 3 chloro N methyl benzenamine 7, 3 methoxy 2 methoxymethyl 1 propanol 8, 4 chloro N methyl benzenamine 9, phthalic anhydride 10, 3 chloro 4 methoxy benzenamine 11, suberic acid dimethyl ester 12, dimethyl phthalate 13, azelaic acid dimethyl ester 14, sebacic acid dimethyl ester 15, palmitic acid methyl ester 16, oleic acid methyl ester 17, stearic acid methyl ester 18, 12 hydroxy stearic acid methyl ester 19, 12 methoxy stearic acid methyl ester 20, styrene 21, 2 (2 methoxyethoxy) ethanol 22, 1,1 oxybis(2 methoxy ethane) 23, benzoic acid methyl ester 24, adipic acid dimethyl ester 25, hexadecenoic acid methyl ester 26, dihydroisopimaric acid methyl ester 27, dehydroabietic acid methyl ester 28, 4 epidehydroabietol...
R. Ploeger, D. Scalarone and O. Chiantore, The characterization of commercial artists alkyd paints, J. Cult. Herit., 9, 412 419 (2008). [Pg.361]

Semi-gloss alkyd paint formulation, 18 6 It Semi-interpenetrating network (IPN) approaches, 10 436 Semi-IPN (interpenetrating polymer network) hydrogels, 13 733 Semikilled steels, 23 291 Semimoist pet foods, 10 849 Semipermanent cells, 14 228 Semiphorone, 14 583 Semiportable mri system, 23 860-861 Semiregenerative reforming operations, 25 166... [Pg.830]


See other pages where Paints alkyd is mentioned: [Pg.512]    [Pg.540]    [Pg.42]    [Pg.290]    [Pg.122]    [Pg.339]    [Pg.351]    [Pg.351]    [Pg.352]    [Pg.352]    [Pg.352]    [Pg.352]    [Pg.352]    [Pg.352]    [Pg.352]    [Pg.364]    [Pg.261]    [Pg.619]    [Pg.640]    [Pg.67]    [Pg.277]    [Pg.186]    [Pg.276]    [Pg.354]    [Pg.354]    [Pg.303]    [Pg.191]    [Pg.181]    [Pg.67]    [Pg.67]   
See also in sourсe #XX -- [ Pg.6 , Pg.354 ]

See also in sourсe #XX -- [ Pg.48 ]

See also in sourсe #XX -- [ Pg.42 ]




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