- Polyvinyl chloride
Polyvinyl chloride, (
IUPACPolychloroethene) commonly abbreviated PVC, is a widely used thermoplastic polymer. In terms of revenuegenerated, it is one of the most valuable products of the chemical industry. Around the world, over 50% of PVC manufactured is used in construction. As a building material, PVC is cheap, durable, and easy to assemble. In recent years, PVC has been replacing traditional building materials such as wood, concreteand clayin many areas. The use of non-PVC materials has been on the rise due to concerns about the environmental and toxicity characteristics of PVC.Fact|date=September 2008 PVC is commonly recycled, and has the number "3" as its recycling symbol.
Polyvinyl chloride is used in a variety of applications. As a hard plastic, it is used as
vinyl siding, magnetic stripe cards, window profiles, gramophone records (which is the source of the term " vinyl records"), pipe, plumbingand conduitfixtures. The material is often used in Plastic Pressure Pipe Systemsfor pipelines in the water and sewer industries because of its inexpensive nature and flexibility. PVC pipe plumbing is typically white, as opposed to ABS, which is commonly available in grey and black, as well as white.
It can be made softer and more flexible by the addition of
plasticizers, the most widely-used being phthalates. In this form, it is used in clothingand upholstery, and to make flexible hoses and tubing, flooring, to roofing membranes, and electrical cable insulation. It is also commonly used in figurines.
Polyvinyl chloride is produced by polymerization of the
monomer vinyl chloride, as shown. Since about 57% of its mass is chlorine, creating a given mass of PVC requires less petroleumthan many other polymers.Fact|date=May 2007
Polyvinyl chloride was accidentally discovered on at least two different occasions in the 19th century, first in 1835 by
Henri Victor Regnaultand in 1872 by Eugen Baumann. On both occasions, the polymerappeared as a white solid inside flasks of vinyl chloridethat had been left exposed to sunlight. In the early 20th century, the Russian chemist Ivan Ostromislenskyand Fritz Klatteof the German chemical company Griesheim-Elektronboth attempted to use PVC (polyvinyl chloride) in commercial products, but difficulties in processing the rigid, sometimes brittle polymer blocked their efforts.In 1926, Waldo Semonand the B.F. GoodrichCompany developed a method to plasticize PVC by blending it with various additives. The result was a more flexible and more easily-processed material that soon achieved widespread commercial use.
PVC is commonly used as the insulation on electric wires; the plastic used for this purpose needs to be plasticized.
In a fire, PVC-coated wires can form
HClfumes; the chlorine serves to scavenge free radicals and is the source of the material's fire retardance. While HCl fumes can also pose a health hazard in their own right, HCl dissolves in moisture and breaks down onto surfaces, particularly in areas where the air is cool enough to breathe, and is not available for inhalation. [Galloway, F.M. et al (1992) "Surface parameters from small-scale experiments used for measuring HCl transport and decay in fire atmospheres", "Fire Mater.", 15:181-189] Frequently in applications where smoke is a major hazard (notably in tunnels) PVC-free LSOH (low-smoke, zero- halogen) cable insulation is preferred. PVC insulation may be eaten or degraded by mice, termites, antechinusand cockatoos. The applicable building codeshould be consulted to determine the type of electrical wires approved for the intended use.
Polyvinyl chloride is also widely used for producing pipes. In the water distribution market it accounts for 66 percent of the market in the US, and in sanitary sewer pipe applications, it accounts for 75 percent. [(http://www.vinylbydesign.com/site/page.asp?CID=14&DID=15)] Its light weight, high strength, and low reactivity make it particularly well-suited to this purpose. In addition, PVC pipes can be fused together using various solvent cements, creating permanent joints that are virtually impervious to leakage. Despite PVC's many advantages, in cases where very high strength or ease of disassembly is necessary, metal pipes are still preferred.
In February 2007, the California Building Standards Code was updated to approve the use of
chlorinated polyvinyl chloride(CPVC) pipe for use in residential water supply piping systems. CPVC has been a nationally-accepted material in the US since 1982; however, California has only permitted its use on a limited basis since 2001. The Department of Housing and Community Development prepared and certified an Environmental Impact Report resulting in a recommendation that the Commission adopt and approve the use of CPVC. The Commission's vote was unanimous and CPVC has been placed in the 2007 California Plumbing Code. [(http://www.bsc.ca.gov/documents/PR07-02_final__pics.pdf)]
In the United States and Canada, PVC pipes account for the largest majority of pipe materials used in buried municipal applications for drinking water distribution and wastewater mains. A detailed State-of-the-Art review of PVC pipes in North America can be found in an article titled Thermoplastics at Work: A Comprehensive Review of Municipal PVC Piping Products. [cite journal
author = Shah Rahman
year = October 2004
title = "Thermoplastics at Work: A Comprehensive Review of Municipal PVC Piping Products"
journal = Underground Construction
pages = 56-61
Portable Electronic Accessories
PVC is finding increased use as a composite for the production of accessories or housings for portable electronics. Through a fusing process, it can adopt cleaning properties possessed by materials such as wool or cotton which can absorb dust particles and bacteria. Its inherent ability to absorb particles from the LCD screen and its form fitting characteristics make it effective.Fact|date=April 2008
In flat sheet form, polyvinyl chloride is formed in a variety of thicknesses and colors. As flat sheets, PVC is often expanded to create voids in the interior of the material, providing additional thickness without additional weight and cost. Sheets are cut using saw and rotary cutting equipment (see
CNC). Plasticized PVC is also used to produce thin, colored, or clear, adhesive-backed films referred to simply as vinyl. These films are typically cut on a computer-controlled plotteror printed in a wide-format printer. These sheets and films are used to produce a wide variety of commercial signageproducts and markings on vehicles.
Unplasticized polyvinyl chloride (uPVC)
uPVC or Rigid PVC is often used in the building industry as a low-maintenance material, particularly in the UK, and in the
USAwhere it is known as vinyl, or vinyl siding. [ [http://www.windowstoday.co.uk/products_pvcu.htm uPVC Windows, Doors] ] [ [http://www.azom.com/details.asp?ArticleID=988 PolyVinyl (Poly Vinyl Chloride) in Construction] ] . The material comes in a range of colors and finishes, including a photo-effect wood finish, and is used as a substitute for painted wood, mostly for window frames and sills when installing double glazing in new buildings, or to replace older single glazed windows. It has many other uses including fascia, and sidingor weatherboarding. The same material has almost entirely replaced the use of cast ironfor plumbingand drainage, being used for waste pipes, drainpipes, gutters and downpipes. [ [http://www.windowstoday.co.uk/cladding.htm Fascia, Guttering, Fascias, PVCu Soffits, Roofing, Cladding] ]
Due to environmental concerns [ [http://www.greenpeace.org/international/campaigns/toxics/polyvinyl-chloride/pvc-products PVC Products - Greenpeace international] ] use of PVC is discouraged by some local authorities [ [http://www.berwick-upon-tweed.gov.uk/buildingcontrol/conscious.htm Environmentally conscious buildings] ] in countries such as
Germanyand The Netherlands. This concerns both flexible PVC and rigid uPVC as not only the plasticizers in PVC are seen as a problem but also the emissions from manufacturing and disposal. The use of modern impact modifiers offer great stability. The issues of migration and brittleness of the PVC compound are overcome. Fact|date=February 2008
Health and safety
Many vinyl products contain additional chemicals to change the chemical consistency of the product. Some of these additional chemicals called
additives can leach out of vinyl products. Plasticizers that must be added to make PVC flexible have been an additive of particular concern.
Because soft PVC toys have been made for babies for years, there are concerns that these additives leach out of soft toys into the mouths of the children chewing on them. Additionally, adult
sex toys have been demonstrated to contain high concentrations of the additives. [cite web |url=http://www.greenpeace.org.uk/blog/toxics/bad-vibrations-we-expose-an-eu-sex-scandal |title= How safe is your sex toy? |accessdate=2008-05-15 |format= |work= ] In January 2006, the European Union placed a ban on six types of phthalate softeners, including DEHP ( diethylhexyl phthalate), used in toys. [See directive [http://europa.eu.int/eur-lex/lex/LexUriServ/site/en/oj/2005/l_344/l_34420051227en00400043.pdf 2005/84/EC] ] In the USA most companies have voluntarily stopped manufacturing PVC toys with DEHP and in 2003 the US Consumer Product Safety Commission ( CPSC) denied a petition for a ban on PVC toys made with an alternative plasticizer, DINP ( diisononyl phthalate). [ [http://www.phthalates.org/yourhealth/childrens_toys.asp Phthalates and childeren's toys] ,www.phthalates.org, undated (accessed 2 February, 2007)] In April 2006, the European Chemicals Bureauof the European Commissionpublished an assessment of DINP which found risk "unlikely" for children and newborns. [ [http://www.dinp-facts.com/upload/documents/document2.pdf EU Risk assessment summary report ] ]
Vinyl IV bags used in neo-natal
intensive careunits have also been shown to leach DEHP. In a draft guidance paper published in September 2002, the US FDA recognizes that many medical devices with PVC containing DEHP are not used in ways that result in significant human exposure to the chemical [http://www.fda.gov/OHRMS/DOCKETS/98fr/090602b.htm] . However, FDA is suggesting that manufacturers consider eliminating the use of DEHP in certain devices that can result in high aggregate exposures for sensitive patient populations such as neonates.
Other vinyl products, including car interiors, shower curtains, flooring, initially release chemical gases into the air. Some studies indicate that this
outgassingof additives may contribute to health complications, and have resulted in a call for banning the use of DEHP on shower curtains, among other uses. [ [http://www.canada.com/cityguides/winnipeg/info/story.html?id=dfe49cb3-b104-4d4a-a449-14e4faf17e2b Vinyl shower curtains a 'volatile' hazard, study says ] ] The Japanese car companies Toyota, Nissan, and Hondahave eliminated PVC in their car interiors starting in 2007.
In 2004, a joint Swedish-Danish research team found a statistical association between allergies in children and indoor air levels of DEHP and BBzP (
butyl benzyl phthalate), which is used in vinyl flooring. [cite journal
author = Bornehag et al.
year = 2004
title = "The Association Between Asthma and Allergic Symptoms in Children and Phthalates in House Dust: A Nested Case-Control Study"
journal = Environmental Health Perspectives
volume = 112
issue = 14
pages = 1393–1397
url=http://www.medscape.com/viewarticle/491620 ] In December 2006, the European Chemicals Bureau of the European Commission released a final draft risk assessment of BBzP which found "no concern" for consumer exposure including exposure to children. [ [http://blog.phthalates.org/archives/2007/01/more_good_news.html Phthalate Information Center Blog: More good news from Europe ] ]
In November 2005, one of the largest hospital networks in the U.S.,
Catholic Healthcare West, signed a contract with B.Braunfor vinyl-free intravenousbags and tubing. [cite journal
author = Business Wire
year = 2005
month = Nov
day = 21
title = CHW Switches to PVC/DEHP-Free Products to Improve Patient Safety and Protect the Environment
journal = Business Wire
url=http://www.findarticles.com/p/articles/mi_m0EIN/is_2005_Nov_21/ai_n15863110 ] According to the [http://www.chej.org Center for Health, Environment & Justice] in
Falls Church, VA, which helps to coordinate a "precautionary" " [http://www.besafenet.com/pvc PVC Campaign] ", several major corporations including Microsoft, Wal-Mart, and Kaiser Permanente[http://www.besafenet.com/pvc/newsreleases/microsoft_news_release.htm announced efforts to eliminate PVC] from products and packaging in 2005. Even Target is reducing its sale of items with PVC. (http://besafenet.com/pvc/newsreleases/target_to_reduce_use.htm)
The FDA Paper titled "Safety Assessment of Di(2-ethylhexyl)phthalate (DEHP)Released from PVC Medical Devices" states that [126.96.36.199] Critically ill or injured patients may be at increased risk of developing adverse health effects from DEHP, not only by virtue of increased exposure, relative to the general population, but also because of the physiological and pharmacodynamic changes that occur in these patients, compared to healthy individuals. [cite web | url=http://www.fda.gov/cdrh/ost/dehp-pvc.pdf | title=Safety Assessment ofDi(2-ethylhexyl)phthalate (DEHP)Released from PVC Medical Devices ]
In 2008, The European Union's Scientific Committee on Emerging and Newly Identified Health Risks (SCENIHR) reviewed the safety of DEHP in medical devices. [http://ec.europa.eu/health/ph_risk/committees/04_scenihr/docs/scenihr_o_014.pdf The SCENIHR report] states that certain medical procedures used in high risk patients result in a significant exposure to DEHP and concludes there is still a reason for having some concerns about the exposure of prematurely born male babies to medical devices containing DEHP. The Committee said there are some alternative plasticisers available for which there is sufficient toxicological data to indicate a lower hazard compared to DEHP but added that the functionality of these plasticisers should be assessed before they can be used as an alternative for DEHP in PVC medical devices.
Vinyl chloride monomer
In the early 1970s, Dr. John Creech and Dr. Maurice Johnson were the first to clearly link and recognize the carcinogenicity of
vinyl chloridemonomer to humans when workers in the polyvinyl chloride polymerization section of a B.F. Goodrich plant near Louisville, Kentucky, were diagnosed with liver angiosarcomaalso known as hemangiosarcoma, a rare disease. [cite journal
author = Creech and Johnson
year = 1974
month = Mar
title = "Angiosarcoma of liver in the manufacture of polyvinyl chloride."
journal = Journal of occupational medicine. : official publication of the Industrial Medical Association.
volume = 16
issue = 3
pages = 150–1
url=http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&db=PubMed&list_uids=4856325&dopt=Citation ] Since that time, studies of PVC workers in Australia, Italy, Germany, and the UK have all associated certain types of occupational cancers with exposure to vinyl chloride. The link between angiosarcoma of the liver and long-term exposure to vinyl chloride is the only one that has been confirmed by the International Agency for Research on Cancer. All the cases of angiosarcoma developed from exposure to vinyl chloride monomer, were in workers who were exposed to very high VCM levels, routinely, for many years. These workers cleaned accretions in reactors, a practice that has now been replaced by automated high pressure water jets.
A 1997 U.S. Centers for Disease Control and Prevention (CDC) report concluded that the development and acceptance by the PVC industry of a closed loop polymerization process in the late 1970s "almost completely eliminated worker exposures" and that "new cases of hepatic angiosarcoma in vinyl chloride polymerization workers have been virtually eliminated." [Epidemiologic Notes and Reports Angiosarcoma of the Liver Among Polyvinyl Chloride Workers – Kentucky, Centers for Disease Control and Prevention Web site. 1997. Available at: http://www.cdc.gov/mmwr/preview/mmwrhtml/00046136.htm]
According to the EPA, "vinyl chloride emissions from polyvinyl chloride (PVC), ethylene dichloride (EDC), and
vinyl chloridemonomer (VCM) plants cause or contribute to air pollution that may reasonably be anticipated to result in an increase in mortality or an increase in serious irreversible, or incapacitating reversible illness. Vinyl chloride is a known human carcinogen that causes a rare cancer of the liver." [National Emission Standards for Hazardous Air Pollutants (NESHAP) for Vinyl Chloride Subpart F, OMB Control Number 2060-0071, EPA ICR Number 0186.09 ( [http://www.epa.gov/fedrgstr/EPA-AIR/2001/September/Day-25/a23920.htm Federal Register: September 252001 (Volume 66, Number 186)] )] EPA's 2001 updated Toxicological Profile and Summary Health Assessment for VCM in its Integrated Risk Information System (IRIS) database lowers EPA's previous risk factor estimate by a factor of 20 and concludes that "because of the consistent evidence for liver cancer in all the studies...and the weaker association for other sites, it is concluded that the liver is the most sensitive site, and protection against liver cancer will protect against possible cancer induction in other tissues." [EPA Toxicologica Review of Vinyl Chloride i Support of Informaiton on the IRIS. May 2000]
A 1998 front-page series in the
Houston Chronicleclaimed the vinyl industry has manipulated vinyl chloride studies to avoid liability for worker exposure and to hide extensive and severe chemical spills into local communities. [Jim Morris, "In Strictest Confidence . The chemical industry's secrets," Houston Chronicle. Part One: "Toxic Secrecy," June 28 1998, pgs. 1A, 24A-27A; Part Two: "High-Level Crime," June 29 1998, pgs. 1,A, 8A, 9A; and Part Three: "Bane on the Bayou," July 26 1998, pgs. 1A, 16A.] ] Retesting of community residents in 2001 by the U.S. Agency for Toxic Substances and Disease Registry (ATSDR) found dioxin levels similar to those in a comparison community in Louisiana and to the U.S. population. [“ATSDR Study Finds Dioxin Levels in Calcasieu Parish Residents Similar to National Levels,” available at: http://www.atsdr.cdc.gov/NEWS/calcasieula031506.html; “ATSDR Study Finds Dioxin Levels Among Lafayette Parish Residents Similar to National Levels,” available at: http://www.atsdr.cdc.gov/NEWS/lafayettela031606.html; ATSDR Report: Serum Dioxin Levels In Residents Of Calcasieu Parish, Louisiana, October 2005, Publication Number PB2006-100561, available from the National Technical Information Services, Springfield, Virginia, phone: 1-800-553-6847/1-703-605-6244] Cancer rates in the community were similar to Louisiana and US averages. ["Calcasieu Cancer Rates Similar to State/National Averages." News Release, State of Louisiana Dept. of Health and Hospitals. January 17, 2002]
The environmentalist group
Greenpeacehas advocated the global phase-out of PVC because they claim dioxinis produced as a byproduct of vinyl chloridemanufacture and from incineration of waste PVC in domestic garbage. The European Industry, however, assertsFact|date=September 2007 that it has improved production processes to minimize dioxin emissions.
Also, scientific tests wherein municipal refuse containing several known concentrations of PVC was burned in a commercial-scale incinerator showed no relationship between the PVC content of the waste and dioxin emissions. [National Renewable Energy Laboratory, "Polyvinyl Chloride Plastics in Municipal Solid Waste Combustion," NREL/TP-430- 5518, Golden CO, April 1993] [Rigo, H.G., Chandler, A. J., and Lanier, W.S., "The Relationship between Chlorine in Waste Streams and Dioxin Emissions from Waste Combustor Stacks," American Society of Mechanical Engineers Report CRTD, Vol 36, New York 1995]
PVC produces HCl upon combustion almost quantitatively related to its chlorine content). Extensive studies in Europe indicate that the chlorine found in emitted dioxins is not derived from HCl in the flue gases. Instead, most dioxins arise in the condensed solid phase by the reaction of inorganic chlorides with graphitic structures in char-containing ash particles. Copper acts as a catalyst for these reactions. [Steiglitz, L., and Vogg, H., "Formation Decomposition of Polychlorodibenzodioxins and Furans in Municipal Waste," Report KFK4379, Laboratorium fur Isotopentechnik, Institut for Heize Chemi, Kerforschungszentrum Karlsruhe, Feb 1988.]
Dioxins are a global health threat because they persist in the environment and can travel long distances. At very low levels, near those to which the general population is exposed, dioxins have been linkedFact|date=July 2007 to immune system suppression, reproductive disorders, a variety of cancers, and
endometriosis. According to a 1994 report by the British firm, ICI Chemicals & Polymers Ltd., "It has been known since the publication of a paper in 1989 that these oxychlorination reactions [used to make vinyl chloride and some chlorinated solvents] generate polychlorinated dibenzodioxins (PCDDs) and dibenzofurans (PCDFs). The reactions include all of the ingredients and conditions necessary to form PCDD/PCDFs.... It is difficult to see how any of these conditions could be modified so as to prevent PCDD/PCDF formation without seriously impairing the reaction for which the process is designed." In other words, dioxins are an undesirable byproduct of producing vinyl chloride and eliminating the production of dioxins while maintaining the oxychlorination reaction may be difficult. Dioxins created by vinyl chloride production are released by on-site incinerators, flares, boilers, wastewater treatment systems and even in trace quantities in vinyl resins. [Pat Costner etal, " [http://www.mindfully.org/Plastic/PVC-Primary-Contributor-Dioxin.htm PVC: A Primary Contributor to the U.S. Dioxin Burden] ; Comments submitted to the U.S. EPA Dioxin Reassessment," (Washington, D.C. Greenpeace U.S.A., February 1995] The US EPA estimate of dioxin releases from the PVC industry was 13 grams TEQ in 1995, or less than 0.5% of the total dioxin emissions in the US; by 2002, PVC industry dioxin emissions had been further reduced by 23%. [US EPA, The Inventory of Sources and Environmental Releases of Dioxin-Like Compounds in the United States: The Year 2002 Update, May 2007]
The largest well-quantified source of dioxin in the US EPA inventory of dioxin sources is barrel burning of household waste. [US EPA2005] Studies of household waste burning indicate consistent increases in dioxin generation with increasing PVC concentrations. [Costner, Pat, (2005), [http://www.pops.int/documents/meetings/cop_2/followup/toolkit/submissions/IPEN%20Comments/Estimating%20Dioxin%20Releases%20English.pdf "Estimating Releases and Prioritizing Sources in the Context of the Stockholm Convention"] , International POPs Elimination Network, Mexico.] According to the EPA dioxin inventory,
landfill fires are likely to represent an even larger source of dioxin to the environment. A survey of international studies consistently identifies high dioxin concentrations in areas affected by open waste burning and a study that looked at the homologue pattern found the sample with the highest dioxin concentration was "typical for the pyrolysis of PVC". Other EU studies indicate that PVClikely "accounts for the overwhelming majority of chlorine that is available for dioxin formation during landfill fires." [Costner 2005]
The next largest sources of dioxin in the EPA inventory are medical and municipal waste incinerators. [Beychok, M.R., "A data base of dioxin and furan emissions from municipal refuse incinerators", Atmospheric Environment, Elsevier B.V., January 1987] Studies have shown a clear correlation between dioxin formation and chloride content and indicate that PVC is a significant contributor to the formation of both dioxin and PCB in incinerators. [Katami, Takeo, et al. (2002) "Formation of PCDDs, PCDFs, and Coplanar PCBs from Polyvinyl Chloride during Combustion in an Incinerator" Environ. Sci. Technol., 36, 1320-1324. and Wagner, J., Green, A. 1993. Correlation of chlorinated organic compound emissions from incineration with chlorinated organic input. Chemosphere 26 (11): 2039-2054. and Thornton, Joe (2002) "Environmental Impacts of polyvinyl Chloride Building Materials", Healthy Building Network, Washington, DC.]
In February 2007, the Technical and Scientific Advisory Committee of the US Green Building Council (USGBC) released its report on a PVC avoidance related materials credit for the LEED Green Building Rating system. The report concludes that "no single material shows up as the best across all the human health and environmental impact categories, nor as the worst" but that the "risk of dioxin emissions puts PVC consistently among the worst materials for human health impacts." [ The USGBC document can be found on line at https://www.usgbc.org/ShowFile.aspx?DocumentID=2372 An analysis by the Healthy Building NEtwork is at http://www.pharosproject.net/wiki/index.php?title=USGBC_TSAC_PVC]
The State of California is currently considering a bill that would ban the use of PVC in consumer packaging due to the threats it poses to human and environmental health and its effect on the recycling stream. [ AB 2505 Californians Against Waste http://www.cawrecycles.org/issues/current_legislation/ab2505_08] Specifically, the language of the bill analysis [http://info.sen.ca.gov/pub/07-08/bill/asm/ab_2501-2550/ab_2505_cfa_20080415_092217_asm_comm.html] stipulates that EPA has listed PVC as a carcinogen. It is also further cites that there are concerns about the leaching of phthalates and lead from the PVC packaging.
The symbol, or 'SPI code', for polyvinyl chloride developed by the
Unicodecharacter for this symbol is U+2675 (HTML character reference &#9845;).
Post-consumer PVC is not typically recycled due to the prohibitive cost of regrinding and recompounding the resin compared to the cost of virgin (unrecycled) resin.Fact|date=February 2007
Some PVC manufacturers have placed vinyl recycling programs into action, recycling both manufacturing waste back into their products, as well as post consumer PVC construction materials to reduce the load on landfills.Fact|date=December 2007
thermal depolymerizationprocess can safely and efficiently convert PVC into fuel and minerals, according to the company that developed it. It is not yet in widespread use.
A new process of
PVC recyclingis being developed in Europe called Texiloop. [http://www.pvcinfo.be/bestanden/Progress%20report%202002_fr.pdf, Page 11, "Mise A Jour Du Projet, Projet Ferrari - Texiloop®] This process is based on a technology already applied industrially in Europe and Japan, called Vinyloop, which consists of recovering PVC plastic from composite materials through dissolution and precipitation. It strives to be a closed loop system, recycling its key solvent and hopefully making PVC a future technical nutrient.
Chlorinated polyvinyl chloride
Plastic Pressure Pipe Systems
Notes and references
Blue Vinyl" (2002). Directed by Daniel B. Gold and Judith Helfand. Learn more about it at [http://www.bluevinyl.org]
Sam Suds and the Case of PVC, the Poison Plastic" (2006). Watch it at [http://www.pvcfree.org]
*"An Overview of the Benefits of Vinyl" (2006) by Dr. Patrick Moore, founding member of Greenpeace and former Director of Greenpeace International. See it at [http://www.vinylnewsservice.net]
* [http://www.pharosproject.net/wiki/index.php?title=PVC PharosWiki entry on PVC] - more detailed referenced information on health issues associated with PVC life cycle.
* [http://www.pvcinformation.org/ PVC Information] "Vinyl is all around us, but no other plastic poses such direct environmental and human health risks."
* [http://ehp.niehs.nih.gov/members/2004/7187/7187.html The Association between Asthma and Allergic Symptoms in Children and Phthalates in House Dust: A Nested Case-Control Study]
* [http://www.ejnet.org/plastics/pvc/ Polyvinyl Chloride - General Info] "PVC – Toxic Plastic"
* [http://www.ecvm.org The European PVC Portal (European Council of Vinyl Manufacturers)]
* [http://www.ecpi.org European Council of Plasticisers and Intermediates]
* [http://www.uni-bell.org Uni-Bell PVC Pipe Association]
* [http://www.azom.com/details.asp?ArticleID=987 An introduction to vinyl]
* [http://www.plastics.ca/vinyl/default.php? The Vinyl Council of Canada]
Wikimedia Foundation. 2010.
Look at other dictionaries:
polyvinyl chloride — n. PVC … English World dictionary
polyvinyl chloride — Chem. a white, water insoluble, thermoplastic resin, derived by the polymerization of vinyl chloride: used chiefly for thin coatings, insulation, and pipings. Also called PVC. [1930 35] * * * ▪ chemical compound a synthetic resin belonging… … Universalium
polyvinyl chloride — A substance used as a rubber substitute in many industrial applications and suspected of being carcinogenic in humans. SYN: chlorethene homopolymer. * * * a tasteless, odorless, clear hard resin formed by the polymerization of vinyl chloride; its … Medical dictionary
polyvinyl chloride — (PVC) Polyvinyl chloride, abbreviated PVC, is a flexible sheet plastic which can be sewn, glued, or welded. Shapes made from PVC may be stuffed, inflated or filled with water. Inexpensive plastic pipes, and their related fittings, commonly… … Glossary of Art Terms
polyvinyl chloride — noun Date: 1933 a polymer of vinyl chloride used especially for electrical insulation, films, and pipes abbreviation PVC … New Collegiate Dictionary
polyvinyl chloride — noun A thermoplastic resin produced by the polymerization of vinyl chloride; used as an electrical insulator and in many other applications. Can be compounded into flexible and rigid forms through the use of plasticizers, stabilizers, fillers and … Wiktionary
Polyvinyl Chloride — (PVC) A group of synthetic textile fibers that, when woven into cloth, provide performance characteristics mostly used by the fashion industry in rainwear. PVC was first created by Eugen Bauman, a German scientist, in 1872. However, it was not … Historical Dictionary of the Fashion Industry
polyvinyl chloride — noun a tough chemically resistant synthetic resin made by polymerizing vinyl chloride … English new terms dictionary
polyvinyl chloride — /pɒliˌvaɪnəl ˈklɔraɪd/ (say polee.vuynuhl klawruyd) noun a colourless thermoplastic resin, produced by the polymerisation of vinyl chloride, with good resistance to water, acids, and alkalis, used in a wide variety of manufactured products,… … Australian English dictionary
polyvinyl chloride — n. a tough transparent solid polymer of vinyl chloride, easily coloured and used for a wide variety of products including pipes, flooring, etc. Usage: Abbr.: PVC. * * * noun [noncount] technical : pvc … Useful english dictionary