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Latex of polystyrene

Interpretation of the P( ) curve itself is very convenient and has been applied by Dandliker (1950) to a latex of polystyrene which... [Pg.33]

A latex of polystyrene is prepared using a microemulsion stabilized with nonionic surfactants, and this is then incorporated as an ingredient in hairspray and setting compositions [14]. The very fine particulate size (0.01-0.1 /zm) improves the style-forming and retaining capability of the product as well as the feel of the resin on the hair. A example is given in Table 5. [Pg.776]

STRIPPING RATE OF RESIDUAL STYRENE MONOVER FROM LATEXES OF POLYSTYRENE AND SBR... [Pg.909]

Both linear and cross-linked monodisperse latexes of polystyrene in the size range 0.1 - 1.2y have been prepared by persulfate-initiated emulsion polymerization (6,7,8), and the size and size distributions of the polymer spheres detennined by electron microscopy. Free electrolyte was removed by a mixed-bed ion exchange resin, and surface charge measured by conductometric titration against standard base. Redispersion in organic media was effected by successive dialyses, first with methanol and finally against the desired solvent. [Pg.64]

An important step in tire progress of colloid science was tire development of monodisperse polymer latex suspensions in tire 1950s. These are prepared by emulsion polymerization, which is nowadays also carried out industrially on a large scale for many different polymers. Perhaps tire best-studied colloidal model system is tliat of polystyrene (PS) latex [9]. This is prepared with a hydrophilic group (such as sulphate) at tire end of each molecule. In water tliis produces well defined spheres witli a number of end groups at tire surface, which (partly) ionize to... [Pg.2669]

Rubio-Hernandez F.J., Gomez-Merino A.I., Ruiz-Reina E., Carnero-Ruiz C. The primary electroviscous effect of polystyrene latexes. Colloids and Surfaces A Physicochemical and Engineering Aspects 140 (1998) 295-298. [Pg.115]

Serizawa and Akashi [95] analyzed the monolayer adsorption of polystyrene latex particles with cationic polyvinylamine grafted on their surface, while Serizawa et al. [96,97] used commercial anionic latex particles. Both types of particles were adsorbed on polyelectrolyte-coated substrates previously prepared by alternating adsorption of cationic and anionic polyelectrolytes such as polyallylamine hydrochloride (PAH) and polystyrene sulfonate sodium salt (PSS) according to the method described by Decher [164]. Using... [Pg.232]

Calculation of material halances of the polystyrene latexes through these LEG systems showed significant retention of the sample within the column. Percent recoveries of polystyrene latexes calculated at 2 k nm for the columns oj Set II are given in Table IV. The small particle sizes (<1000 A) are completely recovered, while significant loss of sample is seen for the larger particle sizes. [Pg.11]

Percent Recoveries of Polystyrene Latexes Using Column Set II... [Pg.11]

Fig. 32. Relationship between Fa, and the dimensionless cluster size (Rla) for fractal clusters (D 2.5) of polystyrene latex in a simple shear flow. Data points are experimental results and the solid line is the theoretical prediction (Sonntag and Russel, 1986,1987a). Fig. 32. Relationship between Fa, and the dimensionless cluster size (Rla) for fractal clusters (D 2.5) of polystyrene latex in a simple shear flow. Data points are experimental results and the solid line is the theoretical prediction (Sonntag and Russel, 1986,1987a).
Polystyrene Latexes. The polystyrene latexes used were the mono-disperse LS-1102-A, LS-1103-A, and LS-1166-B (Dow Chemical Co.) with average particle diameters of 190, 400, and llOOnm, respectively. The latexes were cleaned by ion exchange with mixed Dcwex 50W-Dowex 1 resin (9). The double-distilled and deionized (DDI) water used had a conductivity of 4x10 ohm- cm-. The surface groups of the ion-exchanged latexes determined by conductometric titration (10) were strong-acid sulfates the surface charge densities were 1.35, 3.00 and 5.95 jiC/cm, respectively. [Pg.78]

Figure 13. Gel permeation chromatogram of polystyrene latex, (PL), prepared by emulsifier-free emulsion polymerization at 1 5 °C(in the absence of silica particles). Figure 13. Gel permeation chromatogram of polystyrene latex, (PL), prepared by emulsifier-free emulsion polymerization at 1 5 °C(in the absence of silica particles).
Studies on orthokinetic flocculation (shear flow dominating over Brownian motion) show a more ambiguous picture. Both rate increases (9,10) and decreases (11,12) compared with orthokinetic coagulation have been observed. Gregory (12) treated polymer adsorption as a collision process and used Smoluchowski theory to predict that the adsorption step may become rate limiting in orthokinetic flocculation. Qualitative evidence to this effect was found for flocculation of polystyrene latex, particle diameter 1.68 pm, in laminar tube flow. Furthermore, pretreatment of half of the latex with polymer resulted in collision efficiencies that were more than twice as high as for coagulation. [Pg.430]

Ali, S. A. Sengupta, M. J., Preparation and characterization of monodisperse polystyrene latexes of varying particle sizes without the use of surfactants, Polym. Mater. Sci. Eng. 1991, 8, 243 250... [Pg.96]

Emulsion Polymerisation It is a very good process which is used for the preparation of polystyrene. Emulsion polymerisation which is mainly used in the production of polystyrene latex used in water-based surface coating. [Pg.157]

Figure 3.23 The tertiary electroviscous effect observed for particles of polystyrene latex with a copolymer of polyacrylic acid at the outer surface. The experimental points were obtained at pH 3 and 10. The dry particle radius was 75 nm and Ka 25... Figure 3.23 The tertiary electroviscous effect observed for particles of polystyrene latex with a copolymer of polyacrylic acid at the outer surface. The experimental points were obtained at pH 3 and 10. The dry particle radius was 75 nm and Ka 25...
Our experiments are typically carried out at DNA concentrations of 20-50 /ig/ml with 1 ethidium per 300 bp, so that depolarization by excitation transfer is negligible.(18) The sample is excited with 575-nm light, and the fluorescence is detected at 630, 640, or 645 nm. Less than one fluorescent photon is detected for every 100 laser shots. The instrument response function e(t) is determined using 575-nm incident light scattered from a suspension of polystyrene latex spheres. [Pg.170]

Monodisperse spheres are not only uniquely easy to characterize, but also very rarely encountered. Polymerization under carefully controlled conditions allows the preparation of the polystyrene latex shown in Figure 1.8. Latexes of this sort are used as standards for the size calibration of optical and electron micrographs (also see Section 1.5a.3). However, in the majority of colloidal systems, the particles are neither spherical nor monodisperse, but it is often useful to define convenient effective linear dimensions that are representative of the sizes and shapes of the particles. There are many ways of doing this, and whether they are appropriate or not depends on the use of such dimensions in practice. There are excellent books devoted to this topic (see, for example, Allen 1990) and, therefore, we consider only a few examples here for the purpose of illustration. [Pg.20]

FIG. 2.1 Sedimentation field flow fractionation (SdFFF) (a) an illustration of the concentration profile and elutant velocity profile in an FFF chamber and (b) a schematic representation of an SdFFF apparatus and of the separation of particles in the flow channel. A typical fractionation obtained through SdFFF using a polydispersed suspension of polystyrene latex spheres is also shown. (Adapted from Giddings 1991.)... [Pg.63]

Kitahara and Ushiyamaf flocculated a polystyrene latex of radius 665 A with KC1. The stability ratio Wwas found to vary with the KC1 concentration as follows ... [Pg.623]

Butadiene is used primarily in the production of synthetic rubbers, including styrene-butadiene rubber (SBR), polybutadiene nibber (BR), styrene-butadiene latex (SBL), chloroprene rubber (CR) and nitrile rubber (NR). Important plastics containing butadiene as a monomeric component are shock-resistant polystyrene, a two-phase system consisting of polystyrene and polybutadiene ABS polymers consisting of acrylonitrile, butadiene and styrene and a copolymer of methyl methacrylate, butadiene and styrene (MBS), which is used as a modifier for poly(vinyl chloride). It is also used as an intermediate in the production of chloroprene, adiponitrile and other basic petrochemicals. The worldwide use pattern for butadiene in 1981 was as follows (%) SBR + SBL, 56 BR, 22 CR, 6 NR, 4 ABS, 4 hexamethylenediamine, 4 other, 4. The use pattern for butadiene in the United States in 1995 was (%) SBR, 31 BR, 24 SBL, 13 CR, 4 ABS, 5 NR, 2 adiponitrile, 12 and other, 9 (Anon., 1996b). [Pg.114]

A polymer called latex, prepared from a monomer that contains organic groups, is deposited as small spheres (0.1—0.3 pm in diameter) on the support to form a continuous film about 1—2 pm thick. The support is made of silica microspheres or spheres of polystyrene of about 25-50 pm diameter (Fig. 4.4). [Pg.68]

Gesler, R. M. and Garvin, P. J. (1973) The biological effects of polystyrene latex particles administered intravenously to rats, a collaborative stuByill. Parent. Drug Assoc., 27 101-113. [Pg.495]

S.B. Blabac, The removal of polystyrene latex from water by... [Pg.265]

Figure 5. Conductometric titration of polystyrene latex with strong base. Key a, strong acid sites b, weak acid sites c, both strong and weak acid sites and d, weak acid and very weak acid sites (from Ref. 38.)... Figure 5. Conductometric titration of polystyrene latex with strong base. Key a, strong acid sites b, weak acid sites c, both strong and weak acid sites and d, weak acid and very weak acid sites (from Ref. 38.)...
See other pages where Latex of polystyrene is mentioned: [Pg.330]    [Pg.520]    [Pg.330]    [Pg.520]    [Pg.374]    [Pg.242]    [Pg.429]    [Pg.438]    [Pg.106]    [Pg.1]    [Pg.413]    [Pg.148]    [Pg.148]    [Pg.29]    [Pg.23]    [Pg.34]    [Pg.270]    [Pg.45]    [Pg.360]    [Pg.59]    [Pg.63]    [Pg.69]    [Pg.74]    [Pg.81]    [Pg.251]   
See also in sourсe #XX -- [ Pg.251 , Pg.276 ]



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