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Metalized films (or metallised films) are polymer films coated with a thin layer of metal, usually aluminium. They offer the glossy metallic appearance of an aluminium foil at a reduced weight and cost. Metalized films are widely used for decorative purposes and food packaging, and also for specialty applications including insulation and electronics.
Metalization is performed using a physical vapor deposition process. Aluminium is the most common metal used for deposition, but other metals such as nickel or chromium are also used. The metal is heated and evaporated under vacuum. This condenses on the cold polymer film, which is unwound near the metal vapor source. This coating is much thinner than a metal foil could be made, in the range of 0.5 micrometres. This coating will not fade or discolour over time. While oriented polypropylene and polyethylene terephthalate (PET) are the most common films used for metallisation, nylon, polyethylene and cast polypropylene are also used.
Metalized films have a reflective silvery surface similar to aluminium foil. The coating also reduces the permeability of the film to light, water and oxygen. The properties of the film remain, such as higher toughness, the ability to be heat sealed, and a lower density at a lower cost than an aluminium foil. This gives metallised films some advantages over aluminium foil and aluminium foil laminates. It was thought that metallised films would become a replacement for aluminium foil laminates, but current films still cannot match the barrier properties of foil. Some very high barrier metallised films are available using EVOH, but are not yet cost effective against foil laminates.
Table 1. Comparison of Metalized PET and aluminium foil
|Moisture (g/m2.day)||Oxygen (mL/m2.day)||UV light (%transmittance)|
|PET film, 12.7μm ||31||465||91|
|Metalized PET ||0.8||1.2||5|
|Aluminium foil 6μm||0||0||0|
Metalized films were first used for decorative purposes as Christmas tinsel, and continue to be used for items such as wrappers and ribbons. The metallic helium filled novelty balloons given as gifts are made of metallised BoPET and often called Mylar balloons commercially.
Both metallised PET and PP have replaced foil laminates for products such as snack foods, coffee and candy, which do not require the superior barrier of aluminium foil. Metalized nylon and polyethylene are used in the meat export market. The controlled permeation extends shelf life.
Many food items are also packaged using metallised films for appearance only, as these produce a package with greater sparkle when compared to competing products that use printed paper or polymer films.
Metalized PET films are used in NASA's spacesuits to make them radiation resistant and keep astronauts warm, and in proximity (aluminized) suits are used by AR-FF fire fighters for protection from the high amount of heat released from fuel fires. Silvered emergency blankets are also used to conserve a shock victim's body heat. These reflective materials might also be used as part of industrial and commercial insulation (for example, insulated shipping containers.)
Insulating blankets made with Metalized PET were also used as insulation in aircraft until safety concerns resulted in their deprecation. In particular, it was found to be a major cause of the in-flight fire of Swissair Flight 111 on September 2, 1998.
- Carbon dioxide transmission rate
- Cutting stock problem
- Insulated shipping container
- Moisture vapor transmission rate
- Popcorn bag
- Oxygen transmission rate
- PET film (biaxially oriented)
- Sputter deposition
- Vacuum deposition
- Hanlon, J. (1992). 1st ed. Handbook of Package Engineering, Lancaster, PA, Technomic Publishing: ISBN 0-87762-924-2. Chapter 4 Coatings and Laminations
- Mount, E. (2004) Metalized Films for Food Packaging, Converting Magazine vol 3
- Mount, E. (2002) Metalized Film Barriers: Where to Next? Converting Magazine vol 3
- European Aluminium Foil Association
- "Airworthiness Directive". FAA.
- "Swissair to replace controversial Mylar insulation". CBC. 1999-11-09. Retrieved 2009-06-19.
- Soroka, W, "Fundamentals of Packaging Technology", IoPP, 2002, ISBN 1-930268-25-4
- Yam, K. L., "Encyclopedia of Packaging Technology", John Wiley & Sons, 2009, ISBN 978-0-470-08704-6