how dispersion methods affect thickening efficiency of CAB-O-SIL

Nov 6, 2010 - Chem. Eng. News , 1966, 44 (24), p 67 ... Publication Date: June 13, 1966 ... Eng. News have been included in the C&EN Archives to provi...
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LABORATORY REPORT NO. IO OXIDES DIVISION

CABOT CORPORATION

DEPT. CN 10. 125 HIGH STREET, BOSTON, MASS. 02110

how dispersion methods affect thickening efficiency

.f CAB-O-SIL

100,001

For any given piece of dispersion equipment, there is a point at which continued agitation has no effect on the degree of dispersion. At this point the viscosity and thixotropy remain constant, and if CAB-O-SIL is well dis­ persed, maximum stability on aging is obtained.

10,000

Low shear equipment, such as simple propeller stirrers, is suitable for very polar, high hydrogen-bonding liquids. When used with medium-polar and non-polar liquids, however, the mixing time should be increased to obtain the best dispersion possible with this equipment.

1.000

100

High shear equipment produces a greater degree of dispersion in a shorter period of time for all liquids. Sonic or mechanical homogenizers, high-speed stirrers, colloid mills, kneaders, and roll mills are high shear. TYPICAL EXAMPLES Approximately 7% CAB-O-SIL M-5 was dispersed at low shear in ethanol, and a cationic surfactant added to achieve a certain viscosity. The same viscosity was ob­ tained with only 5% CAB-O-SIL dispersed with high shear equipment, with the same amount of cationic ad­ ditive — a reduction of greater than 28% in material costs. In a polyester resin 2% CAB-O-SIL M-5, dispersed at low shear, gave an apparent viscosity of 7500 cps; the addi­ tion of 0.4% ethylene glycol increased the viscosity to 9000 cps (a 20% increase). When 2% CAB-O-SIL M-5 was added at high shear, with the same amount of addi­ tive, viscosity increased 9 4 % to 12,000 cps, or 3 3 % more than with corresponding low shear equipment. In a mineral oil 2% CAB-O-SIL M-5 added at low shear showed viscosity of 2800 cps. The same amount dis­ persed at high shear increased viscosity to 32,000 cps.

Effect of mixing time (min.) in Waring Blendor on viscosity of mixtures of butanol, a polyester resin, and a mineral oil.

With 0.4% water, viscosity increased to nearly 100,000 cps. For more information on how to get the most for your money in thickening efficiency with CAB-O-SIL, write for our 8-page technical brochure, "How to Thicken Liquids with CAB-O-SIL" (CTh-2), or see our insert in the 1966 edition of Chemical Materials Catalog, Section C - l . CAB-O-SI Lis a fire-dry 99% pure fumed silica with a par­ ticle size of 0.015 micron, surface area of 200 m2/gm, bulk density of 2.3 lb./cu. ft.

2 % CAB-O-SIL M-5 IN POLYESTER RESIN

C A B O T C O R P O R A T I O N — OXIDES DIVISION Dept. CN10, 125 High Street, Boston, Mass. 02110

D RUSH FREE SAMPLE and literature on CAB-O-SIL Π Please call me for appointment. Tel.: I am especially interested in

Name_ Title

10

15

20 Waring Blendor

MINUTES Viscosity at point A is slightly higher than at point Β and beyond, where viscosity begins to level off. At point Β and beyond the maximum stability on aging is obtained.

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