Search Details

Word: resinated (lookup in dictionary) (lookup stats)
Dates: all
Sort By: most recent first (reverse)


Usage:

...used to put a lusterless coating (which must be renewed from time to time) on blue serge and to impregnate wool so that it achieves a durable crease when pressed under heat. To make wool shrink-proof, Powers first wets it to open the fibers, then injects a resin inside the hollowed fibers. This stiffens the tiny, fuzzy barbs that stick out of the side of a woolen fiber and prevents the barbs from interlocking - the cause of shrinkage...

Author: /time Magazine | Title: Science: No Shrink, No Shine, No Runs | 7/24/1944 | See Source »

Developed by the Hercules Powder Co., which worked on the problem for many years, the new method involves a powdered resin called Stabinol. The powder is spread on the soil, a few pounds per square yard; then it is harrowed in six inches deep and the soil is packed hard with a steam roller. The result is a smooth, dry surface that sheds water like a duck's back. It is good for tennis courts, athletic fields, earth dams-and especially for roads. The Army has already begun to use it for roads and airfields...

Author: /time Magazine | Title: Science: Up from the Mud | 3/20/1944 | See Source »

...tree sap, the powder is a cheap (less than $5,000 per mile of 40-ft. road), quick road-builder. It works something like sizing in coated paper; a mixture of about 1% of Stabinol in ordinary soil prevents water from penetrating in sufficient quantity to soften it. A resin-stabilized road stays so dry that even when it is covered with a layer of water a truck driven over it throws up a trail of dust. Stabinol does not waterproof sand (because sand lacks a binder to make it solid) and it does not work on ground that...

Author: /time Magazine | Title: Science: Up from the Mud | 3/20/1944 | See Source »

...start in 1880 when, as the youngest student at the University of Ghent, he developed Velox paper, a photographic milestone which killed tintypes and netted him a reputed $1,000,000 from Eastman Kodak. Baekeland made possible the "improbable sandwich" (plywood) by his work in 1912 on a synthetic resin filler. He was also honored for : separation of cadmium and copper, oxidation of hydrochloric acid under light, dissociation of nitrate of lead, industrial electrolysis of alkali chlorids...

Author: /time Magazine | Title: Milestones, Mar. 6, 1944 | 3/6/1944 | See Source »

...ever duplicated shellac's complicated chemical structure. But Chem ist C. G. Harford, of the Arthur D. Little laboratory in Cambridge, Mass., found that a resin named zein, derived from corn, behaved very much like shellac. A drawback, however, was that in solution zein had a tendency to jell. By an un disclosed chemical process, Harford finally succeeded in converting zein into a non-jelling resin. The result, Zinlac, not only has the quick-drying, elastic qualities of shellac, but is also more resistant to water and makes a better coat for metal...

Author: /time Magazine | Title: Science: Shellac Substitute | 12/6/1943 | See Source »

Previous | 29 | 30 | 31 | 32 | 33 | 34 | 35 | 36 | 37 | 38 | 39 | 40 | 41 | 42 | 43 | 44 | 45 | 46 | 47 | 48 | 49 | Next