ECO GROW

Brand Owner (click to sort) Address Description
ECO GRO ECO SOIL SYSTEMS,INC. 10890 Thornmint Road, Suite 200 San Diego CA 92127 ECO-GROW;liquid fertilizer for agricultural use;
ECOGRO SYNDICATE SALES, INC. 2025 N. Wabash Avenue Kokomo IN 46901 ECO GROW;Artificial plant-cultivation soil;
ECOGRO ECOSTADT TECHNOLOGIES 1024 Iron Point Road, Suite 100-1318 Folsom CA 95630 ECO GROW;Fertiliser for soil and potting soil; Fertilisers; Fertilisers for soil and potting soil; Fertilizers; Fertilizers for agricultural use; Fertilizers for domestic use; Fertilizers for household plants; Natural fertilizers; Nitrogenous fertilisers; Nitrogenous fertilizers; Organic fertilizers; Organic digestate for use as a fertilizer;
ECOGRO Lambland Inc. dba A1 Organics, Inc. 16350 WCR 76 Eaton CO 80615 ECO GROW;Compost; Organic and Natural Fertilizers;
ECOGROW BioAir Solutions 110 Kresson-Gibbsboro Road, Suite 303 Voorhees NJ 08043 ECO GROW;Air cleaning units; Air filtering installations; Air filters for industrial installations; Air purification units; Air purifiers; Air purifying apparatus; Air purifying apparatus and machines; Air purifying units for municipal and industrial odor and air emissions control use; Industrial air purifiers; Separators for the cleaning and purification of air;
ECOGROW BioAir Solutions 110 Kresson-Gibbsboro Road Voorhees NJ 08043 ECO GROW;chemical nutrient additives used in air purifying, cleaning, and filtering units and installations;
ECOGROW THE HC COMPANIES, INC. 2450 Edison Blvd, Suite 3 Twinsburg OH 44087 ECO GROW;Horticultural containers, namely, plant containers manufactured from recycled newspaper in the form of trays and pots for farm and greenhouse horticultural uses in the nature of commercial production of annuals, perennials, herbs, vegetable and landscaping plants;
ECOGROW Visiontech Group Inc 4010 Valley Blvd., Unit 109 Walnut CA 91789 ECO GROW;LED plant grow lights;
 

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

    
Technical Examples
  1. A joint having bond line grains that nucleate in the joint region and grow into the adjoined solid substrates. The resulting bond line grains have a size that is greater than a thickness of a molten region. The surfaces of the substrates are cold worked to a desired degree of residual stress prior to the bonding process so that the recrystallization of the substrate surface necessary for the grains to grow into the substrates results in a reduction in the local free energy.