Polyvinyl chloride

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Mechanical properties

Elongation at break	20–40%
Notch test	2–5 kJ/m2
Glass Transition Temperature	Template:Convert<ref name="pvc handbook">Template:Cite book</ref>
Melting point	Template:Convert to Template:Convert<ref name="pvc handbook"/>
Effective heat of combustion	17.95 MJ/kg
Specific heat (c)	0.9 kJ/(kg·K)
Water absorption (ASTM)	0.04–0.4
Dielectric Breakdown Voltage	40 MV/m

Polyvinyl chloride (alternatively: poly(vinyl chloride),<ref>Template:Cite web</ref><ref>Template:Cite web</ref> colloquial: vinyl<ref name="pvc.org_about">Template:Cite web</ref> or polyvinyl; abbreviated: PVC<ref name="pvc.org_about"/>) is the world's third-most widely produced synthetic polymer of plastic (after polyethylene and polypropylene). About 40 million tons of PVC are produced each year.<ref name=ullmannPVC/>

PVC comes in rigid (sometimes abbreviated as RPVC) and flexible forms. Rigid PVC is used in construction for pipes, doors and windows. It is also used in making plastic bottles, packaging, and bank or membership cards. Adding plasticizers makes PVC softer and more flexible. It is used in plumbing, electrical cable insulation, flooring, signage, phonograph records, inflatable products, and in rubber substitutes.<ref>Template:Cite book</ref> With cotton or linen, it is used in the production of canvas.

Polyvinyl chloride is a white, brittle solid. It is soluble in ketones, chlorinated solvents, dimethylformamide, THF and DMAc.<ref>Template:Cite journal</ref>

PVC was synthesized in 1872 by German chemist Eugen Baumann after extended investigation and experimentation.<ref>Baumann, E. (1872) "Ueber einige Vinylverbindungen" Template:Webarchive (On some vinyl compounds), Annalen der Chemie und Pharmacie, 163 : 308–322.</ref> The polymer appeared as a white solid inside a flask of vinyl chloride that had been left on a shelf sheltered from sunlight for four weeks. In the early 20th century, the Russian chemist Ivan Ostromislensky and Fritz Klatte of the German chemical company Griesheim-Elektron both attempted to use PVC in commercial products, but difficulties in processing the rigid, sometimes brittle polymer thwarted their efforts. Waldo Semon and the B.F. Goodrich Company developed a method in 1926 to plasticize PVC by blending it with various additives,<ref>Template:Cite journal</ref> including the use of dibutyl phthalate by 1933.<ref>Template:Cite patent Template:Webarchive</ref>

Polyvinyl chloride is produced by polymerization of the vinyl chloride monomer (VCM), as shown.<ref>Template:Cite book</ref>

The polymerisation of vinyl chloride

About 80% of production involves suspension polymerization. Emulsion polymerization accounts for about 12%, and bulk polymerization accounts for 8%. Suspension polymerization produces particles with average diameters of 100–180 μm, whereas emulsion polymerization gives much smaller particles of average size around 0.2 μm. VCM and water are introduced into the reactor along with a polymerization initiator and other additives. The contents of the reaction vessel are pressurized and continually mixed to maintain the suspension and ensure a uniform particle size of the PVC resin. The reaction is exothermic and thus requires cooling. As the volume is reduced during the reaction (PVC is denser than VCM), water is continually added to the mixture to maintain the suspension.<ref name=ullmannPVC>Template:Ullmann</ref>

PVC may be manufactured from ethylene, which can be produced from either naphtha or ethane feedstock.<ref name="Nikkei Asian Review">Template:Cite web</ref>

The polymers are linear and are strong. The monomers are mainly arranged head-to-tail, meaning that chloride is located on alternating carbon centres. PVC has mainly an atactic stereochemistry, which means that the relative stereochemistry of the chloride centres are random. Some degree of syndiotacticity of the chain gives a few percent crystallinity that is influential on the properties of the material. About 57% of the mass of PVC is chlorine. The presence of chloride groups gives the polymer very different properties from the structurally related material polyethylene.<ref>Handbook of Plastics, Elastomers, and Composites, Fourth Edition, 2002 by The McGraw-Hill, Charles A. Harper Editor-in-Chief. Template:ISBN</ref> At 1.4 g/cm³, PVC's density is also higher than structurally related plastics such as polyethylene (0.88–0.96 g/cm³) and polymethylmethacrylate (1.18 g/cm³).

About half of the world's PVC production capacity is in China, despite the closure of many Chinese PVC plants due to issues complying with environmental regulations and poor capacities of scale. The largest single producer of PVC as of 2018 is Shin-Etsu Chemical of Japan, with a global share of around 30%.<ref name="Nikkei Asian Review"/>

The product of the polymerization process is unmodified PVC. Before PVC can be made into finished products, it always requires conversion into a compound by the incorporation of additives (but not necessarily all of the following) such as heat stabilizers, UV stabilizers, plasticizers, processing aids, impact modifiers, thermal modifiers, fillers, flame retardants, biocides, blowing agents and smoke suppressors, and, optionally, pigments.<ref name=UllmannPlasticizer>David F. Cadogan and Christopher J. Howick "Plasticizers" in Ullmann's Encyclopedia of Industrial Chemistry 2000, Wiley-VCH, Weinheim. Template:Doi</ref> The choice of additives used for the PVC finished product is controlled by the cost performance requirements of the end use specification (underground pipe, window frames, intravenous tubing and flooring all have very different ingredients to suit their performance requirements). Previously, polychlorinated biphenyls (PCBs) were added to certain PVC products as flame retardants and stabilizers.<ref>Template:Cite web</ref>

Template:Main Among the common plastics, PVC is unique in its acceptance of large amounts of plasticizer with gradual changes in physical properties from a rigid solid to a soft gel,<ref name="additives handbook">Template:Cite book</ref> and almost 90% of all plasticizer production is used in making flexible PVC.<ref>David F. Cadogan and Christopher J. Howick "Plasticizers" in Ullmann's Encyclopedia of Industrial Chemistry 2000, Wiley-VCH, Weinheim. Template:Doi</ref><ref name="plasticisers1">Template:Cite web</ref> The majority is used in films and cable sheathing.<ref name=ceresana>Template:Cite web</ref> Flexible PVC can consist of over 85% plasticizer by mass, however unplasticized PVC (UPVC) should not contain any.<ref name=table />

PVC properties as a function of phthalate plasticizer level<ref name=table>Template:Cite book</ref>

	Plasticizer content (% DINP by weight)	Specific gravity (20 °C)	Shore hardness (type A, 15 s)	Flexural stiffness (Mpa)	Tensile strength (Mpa)	Elongation at break (%)	Example applications
Rigid	0	1.4		900	41	<15	Unplasticized PVC (UPVC): window frames and sills, doors, rigid pipe
Semi-rigid	25	1.26	94	69	31	225	Vinyl flooring, flexible pipe, thin films (stretch wrap), advertising banners
Flexible	33	1.22	84	12	21	295	Wire and cable insulation, flexible pipe
Very Flexible	44	1.17	66	3.4	14	400	Boots and clothing, inflatables,
Extremely Flexible	86	1.02	< 10				Fishing lures (soft plastic bait), polymer clay, plastisol inks

Template:Main The most common class of plasticizers used in PVC is phthalates, which are diesters of phthalic acid. Phthalates can be categorized as high and low, depending on their molecular weight. Low phthalates such as Bis(2-ethylhexyl) phthalate (DEHP) and Dibutyl phthalate (DBP) have increased health risks and are generally being phased out. High-molecular-weight phthalates such as diisononyl phthalate (DINP) and diisodecyl phthalate (DIDP) are generally considered safer.<ref name="plasticisers1"/>

While DEHP has been medically approved for many years for use in medical devices, it was permanently banned for use in children's products in the US in 2008 by US Congress;<ref>Template:Cite web</ref> the PVC-DEHP combination had proved to be very suitable for making blood bags because DEHP stabilizes red blood cells, minimizing hemolysis (red blood cell rupture). However, DEHP is coming under increasing pressure in Europe. The assessment of potential risks related to phthalates, and in particular the use of DEHP in PVC medical devices, was subject to scientific and policy review by the European Union authorities, and on 21 March 2010, a specific labeling requirement was introduced across the EU for all devices containing phthalates that are classified as CMR (carcinogenic, mutagenic or toxic to reproduction).<ref>Opinion on The safety of medical devices containing DEHP plasticized PVC or other plasticizers on neonates and other groups possibly at risk (2015 update) Template:Webarchive. Scientific Committee on Emerging and Newly-Identified Health Risks (25 June 2015).</ref> The label aims to enable healthcare professionals to use this equipment safely, and, where needed, take appropriate precautionary measures for patients at risk of over-exposure.<ref>Template:Cite web</ref>

File:Bis(2-ethylhexyl)phthalate.svg

BaZn stabilisers have successfully replaced cadmium-based stabilisers in Europe in many PVC semi-rigid and flexible applications.<ref>Liquid stabilisers. Seuropean Stabiliser Producers Association</ref>

In Europe, particularly Belgium, there has been a commitment to eliminate the use of cadmium (previously used as a part component of heat stabilizers in window profiles) and phase out lead-based heat stabilizers (as used in pipe and profile areas) such as liquid autodiachromate and calcium polyhydrocummate by 2015. According to the final report of Vinyl 2010,<ref>Vinyl 2010. The European PVC Industry's Sustainable Development Programme</ref> cadmium was eliminated across Europe by 2007. The progressive substitution of lead-based stabilizers is also confirmed in the same document showing a reduction of 75% since 2000 and ongoing. This is confirmed by the corresponding growth in calcium-based stabilizers, used as an alternative to lead-based stabilizers, more and more, also outside Europe.<ref name=ullmannPVC/>

Some of the most crucial additives are heat stabilizers. These agents minimize loss of HCl, a degradation process that starts above 70 °C (158 °F) and is autocatalytic. Many diverse agents have been used including, traditionally, derivatives of heavy metals (lead, cadmium). Metallic soaps (metal "salts" of fatty acids such as calcium stearate) are common in flexible PVC applications.<ref name=ullmannPVC/>

PVC is a thermoplastic polymer. Its properties are usually categorized based on rigid and flexible PVCs.<ref>Template:Cite web</ref>

Property	Unit of measurement	Rigid PVC	Flexible PVC
Density<ref name="titow1186">Template:Harvnb.</ref>	g/cm3	1.3–1.45	1.1–1.35
Thermal conductivity<ref name="titow1191">Template:Harvnb.</ref>	W/(m·K)	0.14–0.28	0.14–0.17
Yield strength<ref name="titow1186"/>	[[Pounds per square inch|Template:Abbr]]	4,500–8,700	1,450–3,600
	[[Pascal (unit)|Template:Abbr]]	31–60	10.0–24.8
Young's modulus<ref name="titow857">Template:Harvnb.</ref>	psi	490,000	—
	[[Pascal (unit)|Template:Abbr]]	3.4	—
Flexural strength (yield)<ref name="titow857"/>	psi	10,500	—
	MPa	72	—
Compression strength<ref name="titow857"/>	psi	9,500	—
	MPa	66	—
Coefficient of thermal expansion (linear)<ref name="titow857"/>	mm/(mm °C)	5×10−5	—
Vicat B<ref name="titow1191"/>	°C	65–100	Not recommended
ResistivityTemplate:Efn<ref name="titow1194">Template:Harvnb.</ref>	[[Ohm|Template:Abbr]] m	1016	1012–1015
Surface resistivityTemplate:Efn<ref name="titow1194"/>	Ω	1013–1014	1011–1012

Notes

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The heat stability of raw PVC is very poor, so the addition of a heat stabilizer during the process is necessary in order to ensure the product's properties. Traditional product PVC has a maximum operating temperature around 60 °C (140 °F) when heat distortion begins to occur.<ref name="Joyce-2004">Template:Cite book</ref>

As a thermoplastic, PVC has an inherent insulation that aids in reducing condensation formation and resisting internal temperature changes for hot and cold liquids.<ref name="Joyce-2004"/>

File:Laying sewer hi res (2).jpg

Roughly half of the world's PVC resin manufactured annually is used for producing pipes for municipal and industrial applications.<ref>Template:Cite conference</ref> In the private homeowner market, it accounts for 66% of the household market in the US, and in household sanitary sewer pipe applications, it accounts for 75%.<ref>Uses for vinyl: pipe. vinylbydesign.com</ref><ref>Template:Cite journal</ref> Buried PVC pipes in both water and sanitary sewer applications that are 100 mm (4 in) in diameter and larger are typically joined by means of a gasket-sealed joint. The most common type of gasket utilized in North America is a metal-reinforced elastomer, commonly referred to as a Rieber sealing system.<ref>Template:Cite journal</ref>

PVC is often used as the insulating sheath on electrical cables. PVC is chosen because of its good electrical insulation, ease of extrusion, and resistance to burn.<ref name="titow717">Template:Harvnb PVC coating of wire and cable</ref>

In a fire, PVC can form hydrogen chloride fumes; the chlorine serves to scavenge free radicals, making PVC-coated wires fire retardant. While hydrogen chloride fumes can also pose a health hazard in their own right, it dissolves in moisture and breaks down onto surfaces, particularly in areas where the air is cool enough to breathe, so would not be inhaled.<ref>Template:Cite journal</ref>

File:Builder's tudorbethan.jpg

PVC is widely and heavily used in construction and building industry,<ref name=ullmannPVC/> For example, vinyl siding is extensively is a popular low-maintenance material, particularly in Ireland, the United Kingdom, the United States, and Canada. 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 insulated glazing in new buildings; or to replace older single-glazed windows, as it does not decompose and is weather-resistant. Other uses include fascia, and siding or weatherboarding. This material has almost entirely replaced the use of cast iron for plumbing and drainage, being used for waste pipes, drainpipes, gutters and downspouts. PVC is known as having strong resistance against chemicals, sunlight, and oxidation from water.<ref>Strong, A. Brent (2005) Plastics: Materials and Processing. Prentice Hall. pp. 36–37, 68–72. Template:ISBN.</ref>

File:Double glazed Units.JPG

Polyvinyl chloride is formed in flat sheets 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 minimal extra cost (see closed-cell PVC foamboard). Sheets are cut using saws and rotary cutting equipment.

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 plotter (see vinyl cutter) or printed in a wide-format printer. These sheets and films are used to produce a wide variety of commercial signage products, vinyl wraps or racing stripes on vehicles for aesthetics or as wrap advertising, and general purpose stickers.<ref name="Ellis">Template:Cite web</ref>

File:Men's black PVC pants 01.jpg

Template:Main PVC fabric is water-resistant, used for its weather-resistant qualities in coats, skiing equipment, shoes, jackets, and aprons.<ref>Template:Cite web</ref> The shoulders of donkey jackets are traditionally made out of PVC. Early high visibility clothing was also made of PVC

The two main application areas for single-use medically approved PVC compounds are flexible containers and tubing: containers used for blood and blood components, for urine collection or for ostomy products and tubing used for blood taking and blood giving sets, catheters, heart-lung bypass sets, hemodialysis sets etc. In Europe the consumption of PVC from medical devices is approximately 85,000 tons each year. Almost one third of plastic-based medical devices are made from PVC.<ref>PVC Healthcare Applications. pvcmed.org</ref>

PVC has been applied to various items such as: bottles,<ref name="Marsh2007"/> packaging films,<ref name="Marsh2007"/> blister packs,<ref name="Marsh2007"/> cling wraps,<ref name="Marsh2007">Template:Cite journal</ref> and seals on metal lids.

PVC may be extruded under pressure to encase wire rope and aircraft cable used for general purpose applications. PVC coated wire rope is easier to handle, resists corrosion and abrasion, and may be color-coded for increased visibility. It is found in a variety of industries and environments both indoor and out.<ref>Template:Cite web</ref>

File:12in-Vinyl-LP-Record-Angle.jpg

Molded PVC is used to produce phonograph, or "vinyl", records. PVC piping is a cheaper alternative to metal tubing used in musical instrument making; it is therefore a common alternative when making wind instruments, often for leisure or for rarer instruments such as the contrabass flute. An instrument that is almost exclusively built from PVC tube is the thongophone, a percussion instrument that is played by slapping the open tubes with a flip-flop or similar.<ref>Building a PVC Instrument. natetrue.com</ref> PVC is also used as a raw material in automotive underbody coating.<ref>Template:Cite book</ref>

Template:Main PVC can be usefully modified by chlorination, which increases its chlorine content to or above 67%. Chlorinated polyvinyl chloride, (CPVC), as it is called, is produced by chlorination of aqueous solution of suspension PVC particles followed by exposure to UV light which initiates the free-radical chlorination.<ref name=ullmannPVC/>

Phthalates, which are incorporated into plastics as plasticizers, comprise approximately 70% of the US plasticizer market; phthalates are by design not covalently bound to the polymer matrix, which makes them highly susceptible to leaching. Phthalates are contained in plastics at high percentages. For example, they can contribute up to 40% by weight to intravenous medical bags and up to 80% by weight in medical tubing.<ref>Template:Cite journal</ref> Vinyl products are pervasive—including toys,<ref>Directive 2005/84/EC of the European Parliament and of the Council 14 December 2005 Template:Webarchive. Official Journal of the European Union. 27 December 2005</ref> car interiors, shower curtains, and flooring—and initially release chemical gases into the air. Some studies indicate that this outgassing of additives may contribute to health complications, and have resulted in a call for banning the use of DEHP on shower curtains, among other uses.<ref>Vinyl shower curtains a 'volatile' hazard, study says Template:Webarchive. Canada.com (12 June 2008). Retrieved on 6 October 2011.</ref>

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.<ref>Template:Cite journal</ref> 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.<ref>Phthalate Information Center Blog: More good news from Europe. phthalates.org (3 January 2007)</ref>

Lead compounds had previously been widely added to PVC to improve workability and stability but have been shown to leach into drinking water from PVC pipes.<ref>Template:Cite web</ref>

In Europe the use of lead-based stabilizers has been discontinued. The VinylPlus voluntary commitment which began in 2000, saw European Stabiliser Producers Association (ESPA) members complete the replacement of Pb-based stabilisers in 2015.<ref>Template:Cite web</ref><ref name="vinylplus.eu">Template:Cite web</ref>

Template:Main In the early 1970s, the carcinogenicity of vinyl chloride (usually called vinyl chloride monomer or VCM) was linked to cancers in workers in the polyvinyl chloride industry. Specifically workers in polymerization section of a B.F. Goodrich plant near Louisville, Kentucky, were diagnosed with liver angiosarcoma also known as hemangiosarcoma, a rare disease.<ref>Template:Cite journal</ref> 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, and it has become accepted that VCM is a carcinogen.<ref name=ullmannPVC/>

PVC produces HCl and carbon dioxide upon combustion.

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Studies of household waste burning indicate consistent increases in dioxin generation with increasing PVC concentrations.<ref name=costner2005>Costner, Pat (2005) "Estimating Releases and Prioritizing Sources in the Context of the Stockholm Convention" Template:Webarchive, International POPs Elimination Network, Mexico.</ref> According to the U.S. 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 PVC likely "accounts for the overwhelming majority of chlorine that is available for dioxin formation during landfill fires."<ref name=costner2005/>

The next largest sources of dioxin in the U.S. EPA inventory are medical and municipal waste incinerators.<ref>Template:Cite journal</ref> Various studies have been conducted that reach contradictory results. For instance a study of commercial-scale incinerators showed no relationship between the PVC content of the waste and dioxin emissions.<ref>National Renewable Energy Laboratory, Polyvinyl Chloride Plastics in Municipal Solid Waste Combustion Template:Webarchive NREL/TP-430- 5518, Golden CO, April 1993</ref><ref>Template:Cite book</ref> Other 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.<ref>Template:Cite journal</ref><ref>Template:Cite journal</ref><ref>Template:Cite book</ref>

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."<ref>The USGBC document Template:Webarchive; An analysis by the Healthy Building NEtwork Template:Webarchive</ref>

In Europe the overwhelming importance of combustion conditions on dioxin formation has been established by numerous researchers. The single most important factor in forming dioxin-like compounds is the temperature of the combustion gases. Oxygen concentration also plays a major role on dioxin formation, but not the chlorine content.<ref>Template:Cite journal</ref>

Several studies have also shown that removing PVC from waste would not significantly reduce the quantity of dioxins emitted. The EU Commission published in July 2000 a Green Paper on the Environmental Issues of PVC"<ref>Environmental issues of PVC Template:Webarchive. European Commission. Brussels, 26 July 2000</ref>

A study commissioned by the European Commission on "Life Cycle Assessment of PVC and of principal competing materials" states that "Recent studies show that the presence of PVC has no significant effect on the amount of dioxins released through incineration of plastic waste."<ref>Life Cycle Assessment of PVC and of principal competing materials Commissioned by the European Commission. European Commission (July 2004), p. 96</ref>

In Europe, developments in PVC waste management have been monitored by Vinyl 2010,<ref>Home – Vinyl 2010 The European PVC industry commitment to Sustainability Template:Webarchive. Vinyl2010.org (22 June 2011). Retrieved on 6 October 2011.</ref> established in 2000. Vinyl 2010's objective was to recycle 200,000 tonnes of post-consumer PVC waste per year in Europe by the end of 2010, excluding waste streams already subject to other or more specific legislation (such as the European Directives on End-of-Life Vehicles, Packaging and Waste Electric and Electronic Equipment).Template:Citation needed

Since June 2011, it is followed by VinylPlus, a new set of targets for sustainable development.<ref>Our Voluntary Commitment. vinylplus.eu</ref> Its main target is to recycle 800,000 tonnes per year of PVC by 2020 including 100,000 tonnes of "difficult to recycle" waste. One facilitator for collection and recycling of PVC waste is Recovinyl.<ref>Incentives to collect and recycle Template:Webarchive. Recovinyl.com. Retrieved on 28 January 2016.</ref> The reported and audited mechanically recycled PVC tonnage in 2016 was 568,695 tonnes which in 2018 had increased to 739,525 tonnes.<ref>Template:Cite web</ref>

One approach to address the problem of waste PVC is also through the process called Vinyloop. It is a mechanical recycling process using a solvent to separate PVC from other materials. This solvent turns in a closed loop process in which the solvent is recycled. Recycled PVC is used in place of virgin PVC in various applications: coatings for swimming pools, shoe soles, hoses, diaphragms tunnel, coated fabrics, PVC sheets.<ref>Solvay, asking more from chemistry Template:Webarchive. Solvayplastics.com (15 July 2013). Retrieved on 28 January 2016.</ref> This recycled PVC's primary energy demand is 46 percent lower than conventional produced PVC. So the use of recycled material leads to a significant better ecological footprint. The global warming potential is 39 percent lower.<ref>Solvay, asking more from chemistry Template:Webarchive. Solvayplastics.com (15 July 2013). Retrieved on 28 January 2016.</ref>

In November 2005, one of the largest hospital networks in the US, Catholic Healthcare West, signed a contract with B. Braun Melsungen for vinyl-free intravenous bags and tubing.<ref>Template:Cite journal</ref>

In January 2012, a major US West Coast healthcare provider, Kaiser Permanente, announced that it will no longer buy intravenous (IV) medical equipment made with PVC and DEHP-type plasticizers.<ref>Smock, Doug (19 January 2012) Kaiser Permanente bans PVC tubing and bags. plasticstoday.com</ref>

In 1998, the U.S. Consumer Product Safety Commission (CPSC) arrived at a voluntary agreement with manufacturers to remove phthalates from PVC rattles, teethers, baby bottle nipples and pacifiers.<ref>Template:Cite web</ref>

File:Vinyl Einmalhandschuhe.JPG

Plasticized PVC is a common material for medical gloves. Due to vinyl gloves having less flexibility and elasticity, several guidelines recommend either latex or nitrile gloves for clinical care and procedures that require manual dexterity or that involve patient contact for more than a brief period. Vinyl gloves show poor resistance to many chemicals, including glutaraldehyde-based products and alcohols used in formulation of disinfectants for swabbing down work surfaces or in hand rubs. The additives in PVC are also known to cause skin reactions such as allergic contact dermatitis. These are for example the antioxidant bisphenol A, the biocide benzisothiazolinone, propylene glycol/adipate polyester and ethylhexylmaleate.<ref name=ansell>Template:Cite web</ref>

The life cycle, sustainability, and appropriateness of PVC are discussed.<ref>London 2012 Use of PVC Policy Template:Webarchive. independent.gov.uk.</ref>Template:By whom In Europe, a 2021 VinylPlus Progress Report indicated that 731,461 tonnes PVC were recycled in 2020, a 5% reduction compared to 2019 due to the COVID-19 pandemic.<ref>Template:Cite web</ref>

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• Chloropolymers
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• Polyethylene
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• The European PVC Portal (European Council of Vinyl Manufacturers) (archived)
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• The Vinyl Council of Canada
• US Vinyl Institute

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