- Lead paint
Lead paint is
paintcontaining lead, a heavy metal, that is used as pigment, with lead(II) chromate(PbCrO4, " chrome yellow") and lead(II) carbonate(PbCO3, " white lead") being the most common. Lead is also added to paint to speed drying, increase durability, retain a fresh appearance, and resist moisture that causes corrosion. Paint with significant lead content is still used in industry and by the military. For example, leaded paint is sometimes used to paint roadways and parking lot lines.
Although lead improves paint performance, it is a dangerous substance. It is especially damaging to children under age six whose bodies are still developing. Lead causes nervous system damage, hearing loss, stunted growth, and delayed development. [http://www.atsdr.cdc.gov/tfacts13.html] It can cause
kidneydamage and affects every organ system of the body. It also is dangerous to adults, and can cause reproductive problems for both men and women.
One myth related to lead-based paint is that the most common cause of poisoning was eating leaded paint chips. In fact, the most common pathway of childhood lead exposure is through ingestion of lead dust through normal hand-to-mouth contact during which children swallow lead dust dislodged from deteriorated paint or leaded dust generated during remodeling or painting. Lead dust from remodeling or deteriorated paint lands on the floor near where children play and can ingest it. Fact|date=February 2008
Lead paint in art
In art, lead white is known as flake white, also sometimes known as Cremnitz white. Flake white is traditionally considered to be the most structurally sound underpainting layer for
oil painting, possessing a combination of flexibility, toughness, and permanence not found in other paints, and certainly not in the other white pigments. [For further discussion of this issue, see Ralph Mayer's classic work, "The Artist's Handbook of Materials and Methods".] Genuine flake white is difficult for artists to obtain in many countries, even though other toxic paints (such as the cadmium-based colors) may be readily available. Where flake white is currently available to artists, it is usually only in small tubes designed for painting, not in the larger cans traditionally used for underpainting (coating the canvas prior to the actual painting) which for centuries was flake white's most important purpose.
Artists' use of lead paint is mostly associated with oil painting on linen or cotton canvas. In the relatively rare cases where it has been used in works on paper, it will often become discolored over long periods of time. This is due to the reaction of the lead carbonate in the paint with traces of
hydrogen sulfidein the air and with acids, often from fingerprints.cite journal
title = A Study of the Discoloration Products Found in White Lead Paint
author = Claire L. Hoevel
journal = The American Institute for Conservation: Book and Paper Group Annual
year = 1985
url = http://aic.stanford.edu/sg/bpg/annual/v04/bp04-04.html] As a result, many older works on paper that used lead paint now show some discoloration.
Paint manufacturers replaced white lead with a less toxic substitute, titanium white (based on the pigment
titanium dioxide) which was first used in paints in the 19th century. (In fact, titanium dioxide is considered safe enough to use as a food coloringand in toothpaste, and is a common ingredient in sunscreen.) The titanium white used in most paints today is often coated with silicon or aluminum oxides for better durability.
For artists, zinc white is less opaque than titanium white, and is better for misty glazes and adding
Some art-supply manufacturers supply a "lead white hue," a mixture, usually of titanium and zinc white, which attempts to imitate the hue of genuine lead paint without the toxicity. It does not, however, have the desirable structural (physical) properties of lead white.
Lead-based paint in the United States
Paint containing more than 0.06% (600 ppm)vague|by number of moles, 600 µmol/mol? By mass, equal to 600 mg/kg? by volume?|date=March 2008 lead was banned for residential use in the United States in 1978 by the U.S.
Consumer Product Safety Commission(16 Code of Federal Regulations CFR 1303). The U.S. Government defines "lead-based paint" as any "paint, surface coating that contains lead equal to or exceeding one milligram per square centimeter(1.0 mg/cm2) or 0.5% by weight." [http://www.dcwatch.com/archives/council15/15-721.htm] Some states have adopted this or similar definitions of "lead-based paint." These definitions are used to enforce regulations that apply to certain activities conducted in housing constructed prior to 1978, such as abatement, or the permanent elimination of a "lead-based paint hazard."
Lead-based paint in real estate maintenance and renovation
Proper maintenance entails repainting before chipping or peeling occurs. Many children are poisoned during unsafe renovations or repainting jobs in pre-1978 housing. Therefore, homeowners are encouraged to carefully stabilize any deteriorated (peeling, chipping, cracking, etc.) paint in a lead-safe manner (see next paragraphs). Then simply repaint with new paint designed for household use.
Working in a lead-safe manner means avoiding dry sanding, dry scraping, removing paint by torching/burning, the use of heat guns over 1100 °F, machine-sanding or grinding without
HEPA filtered dust collection or HEPA-filtered vacuum. These methods are now prohibited by the United States Department of Housing and Urban Development(HUD) because they have been proven to create significant levels of lead dust during remodeling, renovation and painting. They must be avoided, especially in properties where children under age six reside. Adult workers using unsafe work practices or improper protective gear may also become lead-poisoned.
The principles of lead safety during remodeling also include restricting access to the work area by not allowing children or pets to enter, laying thick plastic sheeting on the floor to collect dust, use of a HEPA-filtered vacuum, wet washing surfaces (with a tri-sodium phosphate solution such as Ledi-Solv) to clean thoroughly at the conclusion of each day and the end of the job, and special attention to cleaning with repeat washing with detergent and vacuuming to pick up all remaining dust. In preparing the surface for painting, be aware that dry sanding or dry scraping may create undesirable lead dust, so spray a mist of water onto the surface to be prepped. These "wet sanding" and "wet scraping" methods creates much less dust than its dry counterparts and is required by law.
Also, do not use methylene chloride, a common ingredient in paint strippers, to strip lead based paint. There are specialized paint strippers for use with lead paint such as LEAD-OUT Paint Stripper, Strip-Tox, Lead-X, and others. Some of these specialized strippers render lead non-hazardous decreasing the risks associated with lead paint removal.
HUD requires a dust test for "clearance" at the end of any remodeling or repainting job be performed by a third-party professional who is independent of the entity performing the work. Contact your state's lead-poisoning prevention program (call the local health department or environmental department) or look in your Yellow Pages director under "lead paint" or "environmental consultants" to locate a lead-based paint professional who can do a clearance examination for your job.
Lead laws: The U.S. Government and many states have regulations regarding lead-based paint. Many of them apply to evaluating a property for lead-based paint. There are two different testing procedures that are similar but yield different information. Lead-based paint inspections will evaluate all painted surfaces in a complex to determine where lead-based paint, if any, is present. The procedures for lead inspections is outlined in the HUD Guidelines, Chapter 7, 1997 Revision. The other testing is a lead-based paint risk assessment. In this testing, only deteriorated painted surfaces are tested and dust wipe samples are collected. This information will help the risk assessor determine if there are any "lead hazards". Many property owners decided to get a combination of both tests to determine where are the property lead-based is present and what hazards are present as well. Risk assessments are outlined in the HUD Guidelines, Chapter 5. In addition, if a child is poisoned in a property, the owner may be required to perform abatement (permanent elimination of the lead hazard).
Lead evaluations of paint are usually performed by a field testing method known as
X-Ray fluorescence(XRF) using equipment such as the RMD LPA-1 or the Thermo Scientific's Niton. XRF is the preferred method because it is not destructive and a reading is usually obtained in about 4–8 seconds with a 95% accuracy at the 2-sigma level. Instruments of this sort have an inconclusive range, and when a reading falls in this range (range is different for each instrument and model), a paint chip may be taken and sent for laboratory analysis. Testing for lead in dust, water, and air also require laboratory analysis. Commercially available lead test kits are often used to test for the presence of lead, but they are not reliable and not authorized by HUD to be used in determining if a property is lead-based paint free. The home's year of construction can be a clues as to the likelihood that lead is present in its paint. Homes older than 1940 almost certainly contain lead paint, homes built between 1960 and 1978 may contain lead paint, while homes built after 1978 are less likely to have lead-based paint. The U.S. Department of Housing and Urban Development's Office of Healthy Homes and Lead Hazard Control performs regular studies of housing-based health hazards in the U.S.
In 1996, the Lead-Based Paint Disclosure Regulation was enacted. It requires owners of pre-1978 "target housing" to disclose to potential buyers or renters all known information about the presence of lead-based paint and/or lead-based paint hazards in the property. It requires that the potential buyer or tenant be given the lead information pamphlet, "Protect Your Family from Lead in Your Home," or other
EPA-approved pamphlet as well as a specific disclosure statement. The option of whether to actually test for the presence of lead-based paint is left to the owner, so long as a decision not to test is disclosed.
tate action against the lead paint industry
The state of
Rhode Islandfiled a public nuisance lawsuitin 1999 to get the former manufacturers of lead paint to pay for the clean up of current lead hazards in Rhode Island. After a trial that ended in a hung jury in 2002, the state refiled the case. In February 2006 the jury decided in favor of the state and said that Sherwin-Williams, NL Industries and Millennium Holdings would have to pay for the clean-up of lead paint in the state. On July 1, 2008, the Rhode Island Supreme Court overturned the verdict, dismissing the case and said should have been dismissed at the outset. [http://www.courts.ri.gov/supreme/pdf-files/Corrected%20Version%20State%20v.%20Lead%20Paint%20Industries%20Assoc.,%20Inc..pdf]
In 2007, the
Missouri Supreme Court[http://www.courts.mo.gov/courts/pubopinions.nsf/0f87ea4ac0ad4c0186256405005d3b8e/2886f48a874d6f28862572f8006c6ff8?OpenDocument] and the New Jersey Supreme Court[http://lawlibrary.rutgers.edu/courts/supreme/a-73-05.doc.html] also rejected the use of the public nuisance theory in lead paint lawsuits. The two remaining public nuisance cases are lawsuits in Ohio and California.
In California, the Supreme Court is reviewing the contingency fee agreement between the municipalities and private counsel. A briefing schedule is currently being set. [http://www.legalnewsline.com/news/214352-paint-industrys-appeal-of-contingent-fee-contract-will-be-heard-by-calif.-sc]
title = Identification of the Materials of Paintings: Lead White
author = Rutherford J. Gettens; Hermann Kühn; W. T. Chase
journal = Studies in Conservation
year = 1967
pages = 125–139.
url = http://links.jstor.org/sici?sici=0039-3630%28196711%2912%3A4%3C125%3ALW%3E2.0.CO%3B2-0
* [http://www.epa.gov/lead/pubs/leadpbed.htm#nlic. US National Lead Information Center]
* [http://www.atsdr.cdc.gov/HEC/CSEM/lead/ Case Studies in Environmental Medicine (CSEM): Lead Toxicity]
* [http://www.atsdr.cdc.gov/tfacts13.html ToxFAQs: Lead]
* [http://www.hud.gov/offices/lead Healthy Homes and Lead Hazard Control]
* [http://www.epa.gov/lead Lead in Paint, Dust, and Soil]
* [http://www.npi.gov.au/database/substance-info/profiles/50.html National Pollutant Inventory - Lead and Lead Compounds Fact Sheet]
* [http://www.cincinnatichildrens.org/research/project/enviro/hazard/lead/lead-advertising/medical-knowledge.htm Medical Knowledge of the Dangers of Lead-Based Paint]
* [http://www.lead411.org/Templates/history/white_lead_pigment.htm Manufacture of White Lead Pigment]
* [http://www.thenation.com/doc/20000320/kitman/17 The Secret History of Lead: Special Report- Nation Magazine]
* [http://www.epa.gov/lead/pubs/leadsafetybk.pdf Lead Paint Safety: EPA's Field Guide for Painting, Home Maintenance, and Renovation Work ]
* [http://www.nmic.org/nyccelp/documents/HUD_NSLAH_Vol1.pdf National Survey of Lead and Allergens in Housing]
* [http://www.leadoutpaintstripper.com Specialized lead paint strippers]
* [http://www.productrecallwatch.com ProductRecallWatch.com, site is automatically updated with current safety recalls]
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