Canned beverages

Product Utilization. The principal appHcation for chromium phosphate coatings is as a paint base for painted aluminum extmsions and aluminum beverage can stock. In these appHcations, extremely demanding performance criteria are met by the chromium phosphate conversion coatings. As an example, the Architectural Aluminum Manufacturer s Association Voluntary Specification 605.2-92 requires humidity and salt spray testing for 3000 hours and allows only minimal incidence of paint failure after testing (26). [Pg.224]

Fig. 3. Used aluminum beverage cans (UBC) recycling process.

Another example of water-reducible acryhc resins is used in the interior linings of two-piece beverage cans. A graft copolymer of styrene, ethyl... [Pg.338]

Beverage can surface coating Bulk gasoline terminals Each coating operation All loading racks ... [Pg.414]

One example of the use of photodegradable polyethylene is for beverage can ring holders in North America. [Pg.881]

IDFD Figure 8. Cemented and welded beverage cans... [Pg.18]

Cemented and Welded Cans. Beer and carbonated beverage cans, made by the now familiar cementing (22) and welding (20) processes, are shown in Figure 8. These processes could also be used for sanitary processed food cans. Enameled TFS materials are used for these cans. Corrosion performance of the enameled, cemented, and welded cans is similar to that of enameled soldered cans for products which do not require the cathodic protection usually supplied by the tin coating. [Pg.18]

Trichloroethylene has been detected in dairy products (milk, cheese, butter) at 0.3-10 pg/kg (0.3-10 ppb), meat (English beef) at 12-16 ppb, oils and fats at 0-19 ppb, beverages (canned fruit drink, light ale, instant coffee, tea, wine) at 0.02-60 ppb, fruits and vegetables (potatoes, apples, pears, tomatoes) at 0-5 ppb, and fresh bread at 7 ppb (McConnell et al. 1975). Samples obtained from a food processor in Pennsylvania contained trichloroethylene concentrations of 68 ppb in plant tap water, 28 ppb in Chinese-style sauce,... [Pg.219]

The quality of an ideally prepared coffee beverage can still be reduced or even spoiled if the water quality affects the coffee. Hardness is one of the main problems in the U.S. because it is usually associated with alkalinity. The acidity, which is a substantial part of the flavor character of coffee, is partly neutralized by hard water. Ion-exchange softened water is even worse, since the excess sodium ions present form soaps with the fatly acids in the roasted coffee. Demineralization of the water is the most effective way to obtain water for the preparation of a clean-flavored cup of coffee in hard-water areas. Oxygen in the water is easily removed by boiling. Chlorine in the water can spoil the flavor of a good coffee, as can organic matter and metal ions, such as iron and copper. [Pg.100]

The primary and secondary aluminum industry produces ingots of pure (greater than 99%) aluminum that serve as feedstock for other materials and processes. Within the U.S., the leading end-users of aluminum come from three industries containers and packaging, transportation, and building and construction. Examples of materials produced with aluminum are sheet metal aluminum plate and foil rod, bar, and wire beverage cans automobiles aircraft components and window/door frames. [Pg.75]

At present, the automotive sector is the largest end-user. The next largest end-user is the beverage can stock. Automotive use of aluminum is expected to sky-rocket as the sector increases its use of aluminum to increase fuel efficiency. [Pg.75]

EC FOOD CONTACT LEGISLATION AND HOW IN THE FUTURE IT MAY BE APPLIED TO LACQUER COATED FOOD AND BEVERAGE CANS... [Pg.74]

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