Packaging Technology and Engineering. Dipak Kumar Sarker

Packaging Technology and Engineering - Dipak Kumar Sarker


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(PIA) and now sits as the authority on plastic materials, promoting the use of the eight ‘plastics’ symbols that have been adopted globally to aid recycling and recyclability. The RIC and international packaging material codes highlight that the packaging product is made from materials that can be recycled or indicate that any recycling of this material is not available at present. Recyclable plastics with RIC codes of 1/2/4/5 (mostly polyolefins) are habitually recycled. However, plastics assigned 3/6/7 are rarely recycled, possibly because of the evolution of toxic waste, with category 7 indicating the use of a mixed‐medium material (other than polymeric materials 1–6), which is currently inaccessible to recycling practices. Other common groupings of materials are 20–39 for paper and cardboard material, 40–49 for metal material, and 70–79 for glasses (Table 1.2).

      Other information shown on the pack in recent times can include ‘made from recycled …’ or shows the packaging origins by bearing the caption ‘is made in part or in full from recycled material’. Where only part of the material of the product is based on recycled materials this is often indicated in a manner such as ‘label made from’ or ‘core made from’ in the case of white‐lined paperboard. Packaging manufacturers or companies that have a code number from the relevant body such as the Department for Environment, Food and Rural Affairs in the UK or the Ministry of Commerce and Industry in India may use the symbol in the way it is allocated to the product varying by the country holding the licence. Some products also bear on the pack or on the label an indication of other properties of the contents. These can include pictorial indications if the product contains flammable products such as butane, contains pressurised gas, contains toxic products (Pictorial indication if a product contains flammable products such as butane, contains pressurised gas, contains toxic products, or may cause infection or irritation.), or may cause infection or irritation. The product packaging also indicates if it is made from compostable materials and therefore is a recognised compostable product, such as the compressed paper egg boxes used in the UK (according to EN 13432). The complex variety of packaging materials [8] used for consumable and non‐consumable products serves a multitude of functions, but the primary importance is chemical, microbiological, and physical protection. Current awareness of packaging use, design, and resource utilisation and ultimately of sustainability [9–11] is an important issue and one that defines current, and will increasingly define future, use.

      1.2.2.2 Glass Packaging

      Washed sand is the main ingredient needed for the fabrication of most types of glass. However, glassy materials produced using only pure silica result in a glass that is too fragile for commercial handling. Consequently, soda (sodium oxide) is added to increase the durability and simultaneously decrease the melting point temperature, making the product easier to handle. Limestone minerals, such as dolomite (calcium carbonate), are incorporated into the sample to increase the chemical resistance of the glass and confer an inertness to a corrosive product. Secondary additions, such as broken pieces of preformed glass (cullet), are further added to this ‘combination’ during production; this is then heated to approximately 1500 °C and shaped into the desired glass packaging. Using broken cullet that has been through certain recycling processes provides technical, environmental, and economic advantages over virgin materials.

      1.2.2.3 Metal Packaging

      Two materials, namely steel sheeting (or aluminium sheeting) and metallic ends, are used to make tinplate metal packaging. Higher grade iron, with less carbon, known as steel, forms the scaffold in the form of sheets that are electroplated with metallic tin to prevent oxidation. A further layer of organic or resinous lacquer is applied to the tin‐plated steel; therefore, any direct contact of steel with can contents (usually food) is removed. In this manner, corrosion‐resistant metal packages can be mass produced. Can bodies and ends are produced for various types of product such as high‐acid, low‐acid, and high‐sulfur‐resistant metal packaging. Other than food products, metal packaging is also used for the packaging of pigments, oils, waxes, paints, and chemical materials. The metal packaging forms a physical barrier, which is resistant to pests (insects and rodents) and also to humidity, light, and air. The thermal resistance of lacquered tin or aluminium cans favours sterilisation and is consequently used as a standard form of packaging. This is certainly the case for foods, where use is common because the can and contents can be heated and simultaneously cooled during retort sterilisation without contamination of the contents.

      1.2.2.4 Paper and Cardboard Packaging

      Paper at first appears to be a simple material but this is an underestimation of a complex polymeric resource that has a colourful and extensive history, with the material undergoing many processing revisions and refinements across the centuries. The first paper was constructed from woven and intertwined papyrus reeds and this even pre‐dates


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