Difference between revisions of "Barrier material"
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A material, such as plastic, paper or metal, that is impermeable to gas or liquid. Modern barrier materials are usually made from lightweight transparent plastic sheets whose goal is to reach the barrier properties of a metal or glass. Metal sheets, such as [[aluminum foil]] have good barrier properties. They are often laminated with [[polyethylene]] and/or [[nylon%20resin|Nylon]] film to provide tear and corrosion resistance. Some plastics also work well as vapor barriers ([[polyvinylidene chloride]], [[polyester%20resin|Polyester]], rigid [[polyvinyl chloride]], [[polychlorotrifluoroethylene]], [[polyvinyl fluoride]]) while others are best for moisture (Polyvinyl chloride, [[regenerated cellulose]], Polyethylene, [[polypropylene]], [[polymethyl methacrylate]] (Hatchfield 2002). Multiple materials are laminated for optimized barrier properties. For anoxia treatments, films with low oxygen permeability are best. | A material, such as plastic, paper or metal, that is impermeable to gas or liquid. Modern barrier materials are usually made from lightweight transparent plastic sheets whose goal is to reach the barrier properties of a metal or glass. Metal sheets, such as [[aluminum foil]] have good barrier properties. They are often laminated with [[polyethylene]] and/or [[nylon%20resin|Nylon]] film to provide tear and corrosion resistance. Some plastics also work well as vapor barriers ([[polyvinylidene chloride]], [[polyester%20resin|Polyester]], rigid [[polyvinyl chloride]], [[polychlorotrifluoroethylene]], [[polyvinyl fluoride]]) while others are best for moisture (Polyvinyl chloride, [[regenerated cellulose]], Polyethylene, [[polypropylene]], [[polymethyl methacrylate]] (Hatchfield 2002). Multiple materials are laminated for optimized barrier properties. For anoxia treatments, films with low oxygen permeability are best. | ||
| + | [[File:WVTR single films Burke WAAC.gif|thumb|Water Vapor Transmission Rates<br>Source: * John Burke, [https://cool.culturalheritage.org/waac/wn/wn14/wn14-2/wn14-204.html Vapor Barrier Films]]] | ||
| + | [[File:OTR single films Burke WAAC.gif|thumb|Oxygen Transmission Rates<br>Source: * John Burke, [https://cool.culturalheritage.org/waac/wn/wn14/wn14-2/wn14-204.html Vapor Barrier Films]]] | ||
| + | == Barrier Film Comparisons== | ||
| + | * Single layer barrier films, such as used for short term applications include cling wrap (polyvinylidene) shrink wrap (polyethylene) and nylon (polyamide) films. | ||
| − | + | * Double-layer films made by thermoforming one material to another provide a better balance of impermeability to both moisture and oxygen, thus providing protection for longer durations. Multi-layer films provide the best protection and usually include combinations of the following: Ethylene-Vinyl alcohol (EVOH), aluminum foil, metallized polyester, nylon, and polyvinylidene chloride. Polyethylene and/or polypropylene are often used to adhere layers together. Some commercial brands form barrier films include: | |
| − | |||
| + | == Heat Sealable, Laminated Barrier Films | ||
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* M.Elkhial, N.El Hadidi, [https://heritagesciencejournal.springeropen.com/counter/pdf/10.1186/s40494-022-00663-z.pdf 'Assessing the suitability of new film laminates for sustainable insect eradiation by modified atmosphere in museums'], Heritage Science, 10:28, 2022. | * M.Elkhial, N.El Hadidi, [https://heritagesciencejournal.springeropen.com/counter/pdf/10.1186/s40494-022-00663-z.pdf 'Assessing the suitability of new film laminates for sustainable insect eradiation by modified atmosphere in museums'], Heritage Science, 10:28, 2022. | ||
* P.Hatchfield, ''Pollutants in the Museum Environment'', Archetype Press, London, 2002. | * P.Hatchfield, ''Pollutants in the Museum Environment'', Archetype Press, London, 2002. | ||
| − | * | + | * John Burke, [https://cool.culturalheritage.org/waac/wn/wn14/wn14-2/wn14-204.html Vapor Barrier Films], WAAC Newsletter, Vol.14(2), 1992. |
* Boise Cascade Paper Group, ''The Paper Handbook'', Boise Cascade, Portland OR, 1989 | * Boise Cascade Paper Group, ''The Paper Handbook'', Boise Cascade, Portland OR, 1989 | ||
* ''Dictionary of Building Preservation'', Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996 | * ''Dictionary of Building Preservation'', Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996 | ||
Revision as of 11:11, 18 February 2025
Description
A material, such as plastic, paper or metal, that is impermeable to gas or liquid. Modern barrier materials are usually made from lightweight transparent plastic sheets whose goal is to reach the barrier properties of a metal or glass. Metal sheets, such as Aluminum foil have good barrier properties. They are often laminated with Polyethylene and/or Nylon film to provide tear and corrosion resistance. Some plastics also work well as vapor barriers (Polyvinylidene chloride, Polyester, rigid Polyvinyl chloride, Polychlorotrifluoroethylene, Polyvinyl fluoride) while others are best for moisture (Polyvinyl chloride, Regenerated cellulose, Polyethylene, Polypropylene, Polymethyl methacrylate (Hatchfield 2002). Multiple materials are laminated for optimized barrier properties. For anoxia treatments, films with low oxygen permeability are best.
Barrier Film Comparisons
- Single layer barrier films, such as used for short term applications include cling wrap (polyvinylidene) shrink wrap (polyethylene) and nylon (polyamide) films.
- Double-layer films made by thermoforming one material to another provide a better balance of impermeability to both moisture and oxygen, thus providing protection for longer durations. Multi-layer films provide the best protection and usually include combinations of the following: Ethylene-Vinyl alcohol (EVOH), aluminum foil, metallized polyester, nylon, and polyvinylidene chloride. Polyethylene and/or polypropylene are often used to adhere layers together. Some commercial brands form barrier films include:
== Heat Sealable, Laminated Barrier Films
| Tradenames | Description Composition layers |
Thickness (mils) | Water-vapor transmission gm/m2 per 24 hours |
Oxygen transmission cc/m2 per 24 hours |
Recorded tests Brand name: number (dates) See note below. |
Data sheet link |
|---|---|---|---|---|---|---|
| Marvelseal 360 | Superior tear and puncture resistance from air, light, and moisture; approved for direct food contact Nylon/PE/Foil/PE/LLDPE |
4.6 - 5.2 Mils | 0.0006 - 0.009 (90% RH, 100°F) | 0.009 (@ 0 RH, 73°F) | * Marvelseal 360: 1 (2018) | Data sheet 1 Data Sheet 2 |
| FR 2175 formerly Marvelseal 470 |
Superior tear and puncture resistance as well as protection from air, light, and moisture vapor PP/PE/Foil/PE/LLDPE |
5.0 - 5.6 Mils | 0.0005 - 0.009 (90% RH, 100°F) | 0.009 (0 RH, 73°F) | * Marvelseal 470: 1 (2019) | Data sheet |
| Cadpak N | Strong foil barrier material for very low oxygen and moisture levels Biax Nylon/PE/Foil/PE |
4.2 Mils | 0.0005 (90% RH, 40°C) | 0.0005 | * Cad Pak N: 1 (2019) | Cadpak-N |
| Cadpak HD-100 | Heavy Duty barrier packaging: water-vapor proof, grease proof, flexible, heat-sealable Biax Nylon/PE/Foil/PE/Heavy Duty Coex |
7.3 - 7.9 Mils | 0.0005 (90% RH, 40°C) | 0.0005 | * Cadpak Hd100: 1 (2018) * Cepac Hd100: 3 (2015) |
HD-100 |
| Cadpak HD-200 | Super heavy Duty barrier packaging: water-vapor proof, grease proof, flexible, heat-sealable Biax Nylon/PE/Cross-lam PE/PE/Foil/Heavy Duty Coex |
10.3 Mils | 0.0005 (90% RH, 40°C) | 0.0005 | * Cadpak Hd200: 1 (2018) | HD-200 |
| Aclar UltRx 6000 | Polychlorotrifluoroethylene | 6.0 Mils | 0.0047 | 27.9 | * n/a | |
| Peralux | PVC/Aclar | 6.0 Mils | 0.03 (90% RH, 100°F) | 14.8 | * n/a | |
| kp (Pentapharm) | PVC/Aclar/PVdC/PVC | 3.0 Mils | 0.35 (90%RH, 38°C) | 0.18 | * n/a | |
| Filmpak 1193 | Polyester/PE/Aclar/PE | 4.9 Mils | 0.03 (90% RH, 100°F) | 0.05 | * n/a | |
| ESCAL | PP/Silica deposited Polyvinyl alcohol/LLDPE | 114 microns | 0.01 (25°C 60%RH) | 0.05 (25°C 60%RH) | * n/a | |
| EVOH/nylon barrier film | EVOH/Nylon | 3.0 Mils | 2.3 | * n/a |
Note: The AIC Materials Testing Results page provides information on Oddy tests that were completed on these materials. Access their database, then use the search box to locate materials of interest.
Synonyms and Related Terms
barrier plastic; barrier film; barrier board; vapor barrier; vapour barrier; air barrier; air infiltration barrier; Marvelseal® 360; Marvelseal® 470; Aclar® [AlliedSignal]; Filmpak 1193; Film O-Rap [Bell Fibre]; ESCAL; EVOH/nylon; Sperrschichtmaterial (Deut.); matériau barrière (Fr.); barreira (Port.)
Resources and Citations
- M.Elkhial, N.El Hadidi, 'Assessing the suitability of new film laminates for sustainable insect eradiation by modified atmosphere in museums', Heritage Science, 10:28, 2022.
- P.Hatchfield, Pollutants in the Museum Environment, Archetype Press, London, 2002.
- John Burke, Vapor Barrier Films, WAAC Newsletter, Vol.14(2), 1992.
- Boise Cascade Paper Group, The Paper Handbook, Boise Cascade, Portland OR, 1989
- Dictionary of Building Preservation, Ward Bucher, ed., John Wiley & Sons, Inc., New York City, 1996
- G.S.Brady, Materials Handbook, McGraw-Hill Book Co., New York, 1971 Comment: p. 578
- Conservation Support Systems, Catalog, 1997 Barrier films
- Theodore J. Reinhart, 'Glossary of Terms', Engineered Plastics, ASM International, 1988
- Art and Architecture Thesaurus Online, https://www.getty.edu/research/tools/vocabulary/aat/, J. Paul Getty Trust, Los Angeles, 2000
- Mid-South Packaging: Data sheets