Monthly Tech-Tip from Tony Hansen SignUp

No tracking! No ads!

Alumina Toxicology | Ammonia and Latex Toxicity | Antimony Oxide | Are colored porcelains hazardous? | Arsenic Oxide | Asbestos: A Difficult-to-Repace Material | Ball Clay | BARIUM and COMPOUNDS / Toxicology | Barium Carbonate | Bentonite Toxicity | Beryllium Monoxide Toxicology | Bismuth Trioxide Toxicology | Boron Compounds and Their Toxicity | Brown Stain | Cadmium Toxicity | Calcium Carbonate Toxicology | Carbon Monoxide Toxicity | Cesium Toxicology | Chromium Compounds Toxicology | Clay Toxicity | Cobalt Oxide and Carbonate | Cobalt Toxicology | Copper Compounds Toxicology | Copper Oxide and Carbonate | Cristobalite Toxicity | Cryolite and Ceramics | Dealing With Dust in Ceramics | Diatomaceous Earth Toxicology | Dioxins in Clays | Epsom Salts | Eye Injuries Due to Radiation | Feldspar | Fighting Micro-Organisms in Ceramics | Fluorine Gas | Fumes from gas kilns | Gallium Oxide Toxicology | Hafnium Oxide Toxicty | Hydrofluoric Acid Toxicity | Iron oxide and Hematite | Lead Chromate | Lead in Ceramic Glazes | Lead Toxicology | Lithium Carbonate Toxicity | Lithium Toxicology | Man-Made Vitreous Fibers (MMVF) Toxicology | Man-Made Vitreous Fibers Safety Update | Manganese and Parkinsons by Jane Watkins | Manganese in Clay Bodies | Manganese Inorganic Compounds Toxicology | Manganese Toxicity by Elke Blodgett | Manganese: Creativity and Illness by Dierdre O'Reilly | Molybdenum Compounds Toxicology | Nickel Compounds Toxicity | Niobium Oxide Toxicity | Occupational Dermatoses | Overview of Material Safety by Gavin Stairs | Paraffin Toxicology | Perlite Toxicity | Plant Ash Toxicity | Potassium Carbonate Toxicity | Pregnancy and Ceramics | Propane Toxicology | Quartz Toxicity | Quartz Toxicity on Clayart | Rare Earth Compounds Toxicity | Rubidium and Cesium Toxicology | Rutile Toxicology | Silicosis and Screening | Silver Compounds Toxicology | Sodium Azide Toxicology | Sodium Carbonate Toxicology | Sodium Silicate Powder Toxicology | Stannous Chloride Toxicity | Strontium Carbonate Toxicity Note | Sulfur Dioxide Toxicity | Talc Hazards Overview | Talc Toxicology | Thallium Oxide Toxicology | The Use of Barium in Clay Bodies | Thorium Dioxide Toxicity | Tin Inorganic Compounds | Titanium Dioxide Toxicology | Toxicological Assessment of Zeolites | Tungsten Compounds Toxicology | | Uranium and Ceramics | Vanadium and Compounds Toxicology | Vermiculite | Zinc Compounds Toxicology | Zirconium Compounds Toxicity | Zirconium Encapsulated Stains Toxicity

Understanding Acronyms on MSDS's

Material safety is a concern of everyone these days, especially educational institutions. While none of the materials we commonly use pose acute poisoning risks, they do present some hazards over years of exposure. Material Safety Data Sheets (MSDSs) are supposed to be available from the manufacturers of all ceramic materials, bodies, glazes, etc. But these can be hard to interpret sometimes because of acronyms used. Here are some of the ones you will see.

CEPA Status:

The Domestic Substances List (DSL) and the Non-Domestic Substances List (NDSL) were created in accordance with the Canadian Environmental Protection Act (CEPA) by Environment Canada. The DSL defines "existing" substances for the purposes of implementing CEPA and is the sole basis for determining whether a substance is "existing" or "new" to Canada. The NDSL specifies substances, other than those on the DSL, that were in world commerce, but not in Canada, and is based on the US Environmental Protection Agency039;s (EPA039;s) 1985 inventory compiled for the Toxic Substances Control Act (TSCA). For more information Visit the CCOHS (Canadian Centre for Occupational Health and Safety) at http://www.ccohs.ca/products/databases/dsl.html.

WHMIS

The Workplace Hazardous Materials Information System (WHMIS) is Canada039;s hazard communication standard. The key elements of the system are cautionary labelling of containers of WHMIS "controlled products", the provision of material safety data sheets (MSDSs) and worker education programs. For more information visit http://www.hc-sc.gc.ca/hecs-sesc/whmis/index.htm.

EPA

The USA Environmental Protection Agency. Their home page is at http://www.epa.gov/

TSCA

The Toxic Substances and Control Act (TSCA) is the primary USA Federal statute regulating the use of certain chemicals and substances, lincluding asbestos, PCBs, radon and lead. Federal facilities may have regulatory responsibilities under TSCA, including complying with regulations governing the proper handling, use, storage and disposal of certain substances and maintaining records. Part of EPA039;s mission is to ensure that Federal facilities comply with these requirements. For more information visit http://www.epa.gov/compliance/civil/federal/tsca.html. If you are seeing this as a webpage then Click Here for a regional page that has many links and more information.

CAS Number

Chemistry Abstracts Service is a team of scientists, creating and delivering the most complete and effective digital information environment for scientific research and discovery. Since 1907, CAS has indexed and summarized chemistry-related articles from more than 40,000 scientific journals, in addition to patents, conference proceedings and other documents pertinent to chemistry, life sciences and many other fields. In total, abstracts for more than 21 million documents are accessible online through CAS.

Substance identification is a special strength of CAS, which is widely known as the CAS Registry at http://www.cas.org/EO/regsys.html, the largest substance identification system in existence. When a chemical substance is newly encountered in the literature processed by CAS, its molecular structure diagram, systematic chemical name, molecular formula, and other identifying information are added to the Registry and assigned a unique CAS Registry Number.

For more information visit http://www.cas.org/EO/regsys.html.

NIST

The National Institutde of Standards and Technology (USA) was founded in 1901. It is a non-regulatory federal agency within the U.S. Commerce Department039;s Technology Administration. NIST039;s mission is to develop and promote measurements, standards, and technology to enhance productivity, facilitate trade, and improve the quality of life. For more information visit http://www.nist.gov.

IARC

The International Agency for Research on Cancer is part of the World Health Organization. IARC039;s mission is to coordinate and conduct research on the causes of human cancer, the mechanisms of carcinogenesis, and to develop scientific strategies for cancer control. For more information visit http://www.iarc.fr.

NIOSH

The US National Institute for Occupational Safety and Health (NIOSH) is the Federal agency responsible for conducting research and making recommendations for the prevention of work-related disease and injury (http://www.cdc.gov/niosh/homepage.html). The Institute is part of the Centers for Disease Control and Prevention (CDC) at http://www.cdc.gov/.

OSHA

U.S. Department of Labor, Occupational Safety & Health Administration. OSHA and its state partners have approximately 2100 inspectors, plus complaint discrimination investigators, engineers, physicians, educators, standards writers, and other technical and support personnel spread over more than 200 offices throughout the country. This staff establishes protective standards, enforces those standards, and reaches out to employers and employees through technical assistance and consultation programs. Website is at http://www.osha.gov/.

ACGIH

The American Conference of Governmental Industrial Hygienists (ACGIH®) is a member-based organization and community of professionals that advances worker health and safety through education and the development and dissemination of scientific and technical knowledge. Examples of this include annual editions of the TLVs® and work practice guides.

TLV

Threshold Limit Values are established by ACGIH as an occupational exposure guideline. They refer to how many milligrams of the material are suspended in each cubic meter of air.

PEL

OSHA sets permissible exposure limits (PELs) to protect workers against the health effects of exposure to hazardous substances (like TLV, these refer to mg per cubic meter of air). PELs are regulatory limits on the amount or concentration of a substance in the air. PELs are enforceable. For the OSHA mineral dust limits visit http://www.osha.gov/pls/oshaweb/owadisp.show_document?p_table=STANDARDS&p_id=9994.

 


Many of the people that work in the above organizations are highly educated volunteers who dedicatate much time and money. They thus regard material safety is a very important issue, many have possibly been hurt or seen others hurt by disregard of safety by worker or employee. If you are a reading this document, think clearly about what you can do to help yourself and others.


By Tony Hansen
Follow me on

Related Information

Links

Hazards The Use of Barium in Clay Bodies
Considerations regarding the use of barium carbonate in pottery and structural clay bodies for precipitation of soluble salts.
Glossary CAS Numbers

Got a Question?

Buy me a coffee and we can talk

 



https://digitalfire.com, All Rights Reserved
Privacy Policy