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Properties opacity

Fig. 4 Optical properties (opacity) determined for S composite film (plasticized starch without natural filler in composition) in comparison with a S/FTN composite films b S/BL composite films c S/BS composite films... Fig. 4 Optical properties (opacity) determined for S composite film (plasticized starch without natural filler in composition) in comparison with a S/FTN composite films b S/BL composite films c S/BS composite films...
Optical Properties (Opacity) of Nonwoven Fabrics (INDA) NWSP 060.1.R0 (15) ... [Pg.184]

Properties Mechanical, thermal, optical properties Opacity and translucency in insulators ... [Pg.15]

Optical. The optical properties of fillers and the influence that fillers have on the optical properties of filled systems are often misunderstood. The key parameters in understanding the optical properties of fillers themselves are filler psd, color, and index of refraction. These characteristics influence the optical properties of filled composition, such as color, brightness, opacity, hiding power, and gloss. [Pg.367]

OPP producers have expanded the core, creating a foam stmcture with lower density, greater opacity, and a stiffer, more paper-Hke feel. Vacuum metallisation increases opacity and water-vapor barrier properties. [Pg.452]

Oriented polypropylene film has exceUent water-vapor barrier but poor gas barrier properties exceUent clarity, or opacity in newer forms and good heat-seal properties in packagiag appHcations. [Pg.452]

Finally, the nature of the crystalline microstmcture, ie, crystal size and morphology and the textural relationship among the crystals and glass, is the key to many mechanical and optical properties, including transparency/opacity, strength and fracture toughness, and machinabiUty. These microstmctures can be quite complex and often are distinct from conventional ceramic microstmctures (6). [Pg.320]

Optical Properties. Owing to the high crystallinity of HDPE, most thick-waHed articles made from HDPE resins are opaque. Significant surface roughness can also add to the opacity. Thin HDPE film, in contrast, is translucent, but its transparency is significantly lower than that of LDPE or LLDPE film. The ultraviolet transmission limit of HDPE is around 230 nm. [Pg.381]

Low Osmolality Contrast Media. An ideal intravascular CM possesses several properties high opacity to x-rays, high water solubihty, chemical stabihty, low viscosity, low osmolahty, and high biological safety. Low cost and patentabihty are also important for commercial agents. The newer nonionic and low osmolar agents represent an advanced class of compounds in the development of x-ray contrast media. [Pg.462]

Refining and Fractionation. These processes are used to alter and select cellulose properties so the final sheet has the desired properties (51). Properties of recycled fibers differ from those of fibers prepared directly from wood. For example, recovered chemical fibers have lower freeness, an apparent viscosity leading to different water drainage characteristics on paper machines. Recovered fibers also have iacreased apparent density, lower sheet strength, iacreased sheet opacity, inferior fiber—fiber bonding properties, lower fiber sweUiag, lower fiber flexibiUty, lower water reteatioa, reduced fiber fibrillatioa, and much lower internal fiber delamination. [Pg.9]

Air Permeability. Air permeabiUty is an important parameter for certain fabric end uses, eg, parachute fabrics, boat sails, warm clothing, rainwear, and industrial air filters. Air permeabiUty of a fabric is related to its cover, or opacity. Both of these properties are related to the amount of space between yams (or fibers in the case of nonwovens). The most common method for specifying air permeabiUty of a fabric involves measuring the air flow per unit area at a constant pressure differential between the two surfaces of the fabric. This method, suitable for measuring permeabiUty of woven, knitted, and nonwoven fabrics, is described in ASTM D737. Units for air permeabiUty measured by this method are generally abbreviated as CFM, or cubic feet per square foot per minute. [Pg.458]

Many different combinations of surfactant and protective coUoid are used in emulsion polymerizations of vinyl acetate as stabilizers. The properties of the emulsion and the polymeric film depend to a large extent on the identity and quantity of the stabilizers. The choice of stabilizer affects the mean and distribution of particle size which affects the rheology and film formation. The stabilizer system also impacts the stabiUty of the emulsion to mechanical shear, temperature change, and compounding. Characteristics of the coalesced resin affected by the stabilizer include tack, smoothness, opacity, water resistance, and film strength (41,42). [Pg.464]

Surface Sizing. Surface sizing is generally used for modification of other properties of paper or paperboard such as printabiHty, smoothness, porosity, coefficient of friction, opacity, surface strength, anti-linting or coating holdout. Anionic starch is perhaps the most common additive or co-additive used for surface sizing. [Pg.310]

See other pages where Properties opacity is mentioned: [Pg.170]    [Pg.129]    [Pg.446]    [Pg.170]    [Pg.129]    [Pg.446]    [Pg.117]    [Pg.366]    [Pg.370]    [Pg.382]    [Pg.290]    [Pg.248]    [Pg.532]    [Pg.541]    [Pg.543]    [Pg.543]    [Pg.2]    [Pg.2]    [Pg.2]    [Pg.4]    [Pg.4]    [Pg.8]    [Pg.9]    [Pg.9]    [Pg.19]    [Pg.21]    [Pg.22]    [Pg.515]    [Pg.4]    [Pg.15]    [Pg.296]    [Pg.248]    [Pg.249]    [Pg.257]    [Pg.276]    [Pg.260]    [Pg.337]    [Pg.122]    [Pg.124]    [Pg.317]   


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