NOVA MAXIMUM

Brand Owner (click to sort) Address Description
NOVAMAX NOVAMAX TECHNOLOGIES HOLDINGS INC. 201 CITY CENTRE DRIVE MISSISSAUGA, ONTARIO L5B 2Z9 Canada nova maximum;chemical preparations for use in the metal finishing industry, namely, electro-cleaners, acid salts, buffing cleaners and alkaline strippers used in electroplating; metal surface phosphating preparations; chemical-typed paint strippers; aluminum surface cleaning, brightening, dexoiding/desmutting, anodizing, coloring and etching preparations; stainless steel cleaning, brightening and descaling preparations; copper, brass, and titanium cleaning, deoxiding and descaling preparations; acid and alkali-based vehicle surface preparation compounds; cleaners for metal, plastic and other industrial substrates; water treatment chemicals; oxidizing and reducing, reagents for metal surfaces; chemical products for maintenance of industrial equip[ment and facilities; acid metal descalers and derusters; fume suppressants;
NOVAMAX NOVAMAX TECHNOLOGIES HOLDINGS INC. 201 CITY CENTRE DRIVE MISSISSAUGA, ONTARIO L5B 2Z9 Canada nova maximum;[industrial lubricants for the drawing, stamping, cutting, honing and drilling of metal];[cleaning preparations for use as aluminum surface cleaners and brighteners; cleaning preparations for metal, plastic and ceramic surfaces; emulsifying solvents for degreasing operations; rust removing preparations; neutral cleaning preparations for use in power washing equipment; cleaning preparations for use in paint booth maintenance; all for use in the metal finishing industry];[hot alkaline paint strippers; cold solvent paint strippers; rust preventive preparations which form a coating; oil and synthetic rust preventive preparations for metal surfaces in the nature of a coating; dyes for use in coloring metal surfaces such as aluminum and brass; sealant coatings; and peelable paint booth coatings; all for use in the metal finishing industry];chemicals; namely, [alkaline aluminum soak cleaners; acid aluminum soak cleaners, aluminum etchants; aluminum deoxidizers and desmutters; alkaline spray cleaners; alkaline soak cleaners; alkaline electrocleaners; acid pickling salts; clay-type paint deflocculants; alkaline paint deflocculants; metal drawing compounds; acid descalers; alkaline cleaners; acid cleaners; etchants; deoxidizers desmutters; fume suppressants for metal treating baths; water treatment chemicals for use as corrosion inhibitors and descalers;] rinse aids; [anionic and non-ionic detergent additives; detergent additives for wetting and cleaning of metal surfaces; inhibited acids; metal brighteners based on inorganic or organic acids; defoamers; chemical preparations for electro-plating and electroless plating baths for ferrous and nonferrous substrates; chemical preparations for applying electrolytic color coatings to metals such as aluminum; chemical preparations for producing anodized coatings on nonferrous metals; chemical conversion coating preparations for chemically converting metal surfaces such as steel, aluminum, brass and copper to a coating that provides corrosion resistance, provides a base for paint or enhances appearance; chemical preparations for forming a phosphate coating on iron, steel, zinc, cadmium and aluminum; all] for the use in the metal finishing industry;
 

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

    
Technical Examples
  1. In a method of and an apparatus for determining a portion of total costs of each entity of a plurality of entities, a maximum value related to a maximum number of accesses of each entity in a time window over a time interval is obtained. Then, the smallest or highest maximum value among the entities is found. The total costs for the smallest maximum value are equally divided among all entities having access to the product in the time interval. Then, a next-higher maximum value among the entities has to be found, and the different costs relating to the next-higher maximum value are determined and equally distributed among the entities having the same or a higher maximum value than the next-higher value. The steps of finding and distributing are repeated until all maximum values are processed. Then, the costs obtained in the steps of distributing are accumulated for each entity.