CELLULOSE FIBER INSULATION

Brand Owner (click to sort) Address Description
"NEWELL" THE NU-WOOL WISE OLD OWL NU-WOOL INSULATION CO., INC. 5338 SCHOOL ST. HUDSONVILLE MI 49426 Cellulose Fiber Insulation;NEW-WOOL WISE;
FIBERCEL FIBERCEL CORP. 87 BEE JAY WAY WOODLAND, CALIF. 95695 WOODLAND CA 95695 CELLULOSE FIBER INSULATION;
INSULATION PLUS USF CORP. SUITE 105 320 N. KENILWORTH LIMA OH 45805 CELLULOSE FIBER INSULATION;APPLICANT DISCLAIMS THE WORD INSULATION APART FROM THE MARK AS SHOWN.;
NU-WOOL NU-WOOL INSULATION COMPANY, INC. 5338 SCHOOL ST. HUDSONVILLE, MICH. 49426 HUDSONVILLE MI 49426 CELLULOSE FIBER INSULATION;KEEP COOL-SAVE FUEL, INSULATION 'AT IT'S BEST' INSULATION;
NU-WOOL NU-WOOL CO., INC. 2472 Port Sheldon Jenison MI 49428 CELLULOSE FIBER INSULATION;NEW-WOOL;
NU-WOOL NU-WOOL INSULATION CO., INC. 5338 SCHOOL ST. HUDSONVILLE MI 49426 CELLULOSE FIBER INSULATION;NEW-WOOL;
R-H CLASS I ROE-HINKLE, INC. P.O. BOX 378 P.O. BOX 378 FULTON, MO. 65251 FULTON MO 65251 CELLULOSE FIBER INSULATION;1;CLASS 1;
THERM-A-FACT THERM-A-FACT PRODUCTS CO., INC. 7839 MORIARTY CORDOVA TN 38018 CELLULOSE FIBER INSULATION;
THERM-O SEAL SOUTHWEST WYOMING REHABILITATION CENTER 2632 FOOTHILL BLVD. SUITE 107 ROCK SPRINGS WY 82901 CELLULOSE FIBER INSULATION;
THERMAL SHIELD INSULATION THERMAL SHIELD, INC. P.O. BOX 1090 HESSTON KS 67062 CELLULOSE FIBER INSULATION;THERMAL INSULATION;
THERMAL SHIELD INSULATION MIDWEST THERMAL PRODUCTS, INC. P. O. BOX 1090 HESSTON KS 67062 CELLULOSE FIBER INSULATION;
WALLSEAL NU-WOOL CO., INC. 2472 Port Sheldon Jenison MI 49428 cellulose fiber insulation;WALL SEAL;
WEATHERIZER NU-WOOL CO., INC. 2472 Port Sheldon Jenison MI 49428 Cellulose Fiber Insulation;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A cellulose fiber having extended biostability and the method of its manufacture are described. While prior treatments of cellulose with biotoxic metal compounds have given improved resistance to decay, these treatments have not been entirely satisfactory where the fiber had to be refined before use. Refining energy was very high and fiber length loss was substantial. Treatment of cellulose fiber with didecyldimethylammonium chloride (DDAC) or bromide (DDAB), these materials in combination with low levels of copper, or low levels of copper alone, has given a product with very good biostability without a major increase in refining energy or loss of fiber length. The treated fiber is particularly advantageous as a reinforcing component for cement board products.