Hazard symbol

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Skull and crossbones, a common symbol for poison and other sources of lethal danger (GHS hazard pictograms) GHS-pictogram-skull.svg
Skull and crossbones, a common symbol for poison and other sources of lethal danger (GHS hazard pictograms)

Hazard symbols are universally recognized symbols designed to alert individuals to the presence of hazardous or dangerous materials, locations, or conditions. These include risks associated with electromagnetic fields, electric currents, toxic chemicals, explosive substances, and radioactive materials. Their design and use are often governed by laws and standards organizations to ensure clarity and consistency. Hazard symbols may vary in color, background, borders, or accompanying text to indicate specific dangers and levels of risk, such as toxicity classes. These symbols provide a quick, universally understandable visual warning that transcends language barriers, making them more effective than text-based warnings in many situations.

Contents

List of Standardized Hazard Symbol Systems

StandardWarningScopeAudienceState
ISO 7010 warning symbols ISO 7010 W021.svg General purpose warning symbolsThe general publicCurrently used
GHS hazard pictograms GHS-pictogram-flamme.svg The labelling of containers and for workplace hazard warnings, and for use during the transport of dangerous goodsThe general public, the workplace, and material transport personnelCurrently used
NFPA 704 Safety Square NFPA 704 example.svg To quickly and easily identify the risks posed by hazardous materialsEmergency response personnelCurrently used in the US
Hazardous Materials Identification System HMIS III - Diesel Fuel.svg A numerical hazard rating used to identify the risks posed by hazardous materialsEmployers and workers who handle and are exposed to hazardous chemicalsCurrently used in the US
EU Directive 67/548/EEC Hazard F.svg The labelling of containers in the EU, used until 2017Mixtures of chemicals that are placed on the market in the European Union No longer used
WHMIS 1988 WHMIS Class B.svg Workplace hazard warnings used in Canada, last used in 2018 in favor of the GHS Workplace Hazards in CanadaNo longer used

Examples of common symbols

Warning ISO 7010 ANSI Z535 (United States) [a]
General warning sign ISO 7010 W001.svg
Flammable material ISO 7010 W021.svg ANSI Z535 - Flammable Symbol.svg
Explosive materials ISO 7010 W002.svg USBM 1983 - Explosion Hazard - No Surround Shape.svg
Toxic material ISO 7010 W016.svg Skull and Crossbones.svg
Corrosive substance ISO 7010 W023.svg ANSI Z535 - Figure A20, Caustic.svg
Electricity hazard ISO 7010 W012.svg ANSI Z535 - Electric Shock - Hand Symbol.svg
Radioactive material or ionizing radiation ISO 7010 W003.svg Radiation warning symbol-US.svg
Biological hazard ISO 7010 W009.svg Biohazard symbol.svg
Floor-level obstacle ISO 7010 W007.svg NBS 1983 - Trip - No Surround Shape.svg
Drop or fall hazard ISO 7010 W008.svg NBS 1983 - Fall - No Surround Shape.svg
Slippery surface ISO 7010 W011.svg United States slip safety symbol.svg


Tape with yellow and black diagonal stripes is commonly used as a generic hazard warning. This can be in the form of barricade tape, or as a self-adhesive tape for marking floor areas and the like. In some regions (for instance the UK) [1] yellow tape is buried a certain distance above buried electrical cables to warn future groundworkers of the hazard.

Generic warning symbol

Generic warning symbol (Background color varies) Vienna Convention road sign Aa-32-V1.svg
Generic warning symbol
(Background color varies)

On roadside warning signs, an exclamation mark is often used to draw attention to a generic warning of danger, hazards, and the unexpected. In Europe and elsewhere in the world (except North America and Australia), this type of sign is used if there are no more-specific signs to denote a particular hazard. [2] [3] When used for traffic signs, it is accompanied by a supplementary sign describing the hazard, usually mounted under the exclamation mark.

This symbol has also been more widely adopted for generic use in many other contexts not associated with road traffic. It often appears on hazardous equipment, in instruction manuals to draw attention to a precaution, on tram/train blind spot warning stickers and on natural disaster (earthquake, tsunami, hurricane, volcanic eruption) preparedness posters/brochuresas an alternative when a more-specific warning symbol is not available.

Poison symbol

Hazard symbol
In  Unicode U+2620SKULL AND CROSSBONES

The skull-and-crossbones symbol, consisting of a human skull and two bones crossed together behind the skull, is today generally used as a warning of danger of death, particularly in regard to poisonous substances.

The symbol, or some variation thereof, specifically with the bones (or swords) below the skull, was also featured on the Jolly Roger, the traditional flag of European and American seagoing pirates. It is also part of the Canadian WHMIS home symbols placed on containers to warn that the contents are poisonous.

In the United States, due to concerns that the skull-and-crossbones symbol's association with pirates might encourage children to play with toxic materials, the Mr. Yuk symbol is also used to denote poison.

This symbol has also been more widely adopted for generic use in many other contexts not associated with poisonous materials. It used for denoting number of dead victims caused by natural disasters (e.g. earthquakes) or armed conflicts on event infographics.

Ionizing radiation symbol

Radioactive sign
In  Unicode U+2622RADIOACTIVE SIGN

The international radiation symbol is a trefoil around a small central circle representing radiation from an atom. It first appeared in 1946 at the University of California, Berkeley Radiation Laboratory. [4] At the time, it was rendered as magenta, and was set on a blue background. The shade of magenta used (Martin Senour Roman Violet No. 2225) was chosen because it was expensive and less likely to be used on other signs. [5] However, a blue background for other signs started to be used extensively. Blue was typically used on information signs and the color tended to fade with weathering. This resulted in the background being changed on the radiation hazard sign. [6] The original version used in the United States is magenta against a yellow background, and it is drawn with a central circle of radius R, an internal radius of 1.5R and an external radius of 5R for the blades, which are separated from each other by 60°. The trefoil is black in the international version, which is also used in the United States. [7]

The symbol was adopted as a standard in the US by ANSI in 1969. [6] [8] It was first documented as an international symbol in 1963 in International Organization for Standardization (ISO) recommendation R.361. [9] In 1974, after approval by national standards bodies, the symbol became an international standard as ISO 361Basic ionizing radiation symbol. [10] The standard specifies the shape, proportions, application and restrictions on the use of the symbol. It may be used to signify the actual or potential presence of ionizing radiation. It is not used for non-ionizing electromagnetic waves or sound waves. The standard does not specify the radiation levels at which it is to be used. [10]

The sign is commonly referred to as a radioactivity warning sign, but it is actually a warning sign of ionizing radiation. Ionizing radiation is a much broader category than radioactivity alone, as many non-radioactive sources also emit potentially dangerous levels of ionizing radiation. This includes x-ray apparatus, radiotherapy linear accelerators, and particle accelerators. Non-ionizing radiation can also reach potentially dangerous levels, but this warning sign is different from the trefoil ionizing radiation warning symbol. [11] The sign is not to be confused with the fallout shelter identification sign introduced by the Office of Civil Defense in 1961. This was originally intended to be the same as the radiation hazard symbol but was changed to a slightly different symbol because shelters are a place of safety, not of hazard. [6] [12]

On February 15, 2007, two groups—the International Atomic Energy Agency (IAEA) and the International Organization for Standardization (ISO)—jointly announced the adoption of a new ionizing radiation warning symbol to supplement the traditional trefoil symbol. The new symbol, to be used on sealed radiation sources, is aimed at alerting anyone, anywhere to the danger of being close to a strong source of ionizing radiation. [13] It depicts, on a red background, a black trefoil with waves of radiation streaming from it, along with a black skull and crossbones, and a running figure with an arrow pointing away from the scene. The radiating trefoil suggests the presence of radiation, while the red background and the skull and crossbones warn of danger. The figure running away from the scene is meant to suggest taking action to avoid the labeled material. The new symbol is not intended to be generally visible, but rather to appear on internal components of devices that house radiation sources so that if anybody attempts to disassemble such devices they will see an explicit warning not to proceed any further. [14] [15]

Biohazard symbol

Hazard symbol
In  Unicode U+2623 BIOHAZARD SIGN

The biohazard symbol is used in the labeling of biological materials that carry a significant health risk, including viral and bacteriological samples, including infected dressings and used hypodermic needles (see sharps waste). [16]

History

The biohazard symbol was developed in 1966 by Charles Baldwin, an environmental-health engineer working for the Dow Chemical Company on their containment products. [17]

According to Baldwin, who was assigned by Dow to its development: "We wanted something that was memorable but meaningless, so we could educate people as to what it means." In an article in Science in 1967, the symbol was presented as the new standard for all biological hazards ("biohazards"). The article explained that over 40 symbols were drawn up by Dow's artists, and all of the symbols investigated had to meet a number of criteria: "(i) striking in form in order to draw immediate attention; (ii) unique and unambiguous, in order not to be confused with symbols used for other purposes; (iii) quickly recognizable and easily recalled; (iv) easily stenciled; (v) symmetrical, in order to appear identical from all angles of approach; and (vi) acceptable to groups of varying ethnic backgrounds." The chosen scored the best on nationwide testing for uniqueness and memorability. [16]

Geometry

The Biohazard Symbol with dimensions Biohazard Symbol Specification.svg
The Biohazard Symbol with dimensions

All parts of the biohazard sign can be drawn with a compass and straightedge. The basic outline of the symbol is a plain trefoil, which is three circles overlapping each other equally like in a triple Venn diagram with the overlapping parts erased. The diameter of the overlapping part is equal to half the radius of the three circles. Then three inner circles are drawn in with 23 radius of the original circles so that it is tangent to the outside three overlapping circles. A tiny circle in center has a diameter 12 of the radius of the three inner circles, and arcs are erased at 90°, 210°, and 330°. The arcs of the inner circles and the tiny circle are connected by a line. Finally, the ring under is drawn from the distance to the perimeter of the equilateral triangle that forms between the centers of the three intersecting circles. An outer circle of the ring under is drawn and finally enclosed with the arcs from the center of the inner circles with a shorter radius from the inner circles. [7]

Chemical symbols

A chemical hazard symbol is a pictogram applied to containers and storage areas of dangerous chemical compounds to indicate the specific hazard, and thus the required precautions. There are several systems of labels, depending on the purpose, such as on the container for transportation, containers for end-use, or on a vehicle during transportation.

Hazard GHS [b] ISO 7010 [19] European Union
Directive 92/58/EEC [20] 		European Union
Directive 67/548/EEC [21] 		WHMIS
1988 [c]
Current
Amended [23]
No longer used [24] [25]
Explosive substance GHS-pictogram-explos.svg ISO 7010 W002.svg
EEC Safety Sign 1977 - Explosive matter.svg
Hazard E.svg
Flammable substance GHS-pictogram-flamme.svg ISO 7010 W021.svg
EEC Safety Sign 1977 - Flammable matter.svg
Hazard F.svg
WHMIS Class B.svg
Oxidizing substance GHS-pictogram-rondflam.svg ISO 7010 W028.svg
EEC Safety Sign 1992 - Oxidant material.svg
Hazard O.svg
WHMIS Class C.svg
Compressed Gas GHS-pictogram-bottle.svg ISO 7010 W029.svg WHMIS Class A.svg
Corrosive substance GHS-pictogram-acid.svg ISO 7010 W023.svg
EEC Safety Sign 1977 - Corrosive matter.svg
Hazard C.svg
WHMIS Class E.svg
Toxic substance GHS-pictogram-skull.svg ISO 7010 W016.svg
EEC Safety Sign 1977 - Toxic matter.svg
Hazard T.svg
WHMIS Class D-1.svg
Irritant/harmful GHS-pictogram-exclam.svg
EEC Safety Sign 1992 - Harmful or irritant material.svg
Hazard X.svg
WHMIS Class D-2.svg
Health hazard GHS-pictogram-silhouette.svg
ISO 7010 W071.svg
WHMIS Class D-2.svg
Environmental hazard GHS-pictogram-pollu.svg ISO 7010 W072.svg
Hazard N.svg
Biological hazard ISO 7010 W009.svg
EEC Safety Sign 1992 - Biological risk.svg
WHMIS Class D-3.svg
Dangerously reactive substance [d] WHMIS Class F.svg

GHS symbols and statements

The United Nations has designed GHS hazard pictograms and GHS hazard statements to internationally harmonize chemical hazard warnings under the Globally Harmonized System of Classification and Labelling of Chemicals. These symbols have gradually replaced nation and region specific systems such as the European Union's Directive 67/548/EEC symbols, [24] Canada's Workplace Hazardous Materials Information System. [25] It has also been adopted in the United States for materials being sold and shipped by manufacturers, distributors and importers. [26] The USA previously did not mandate a specific system, instead allowing any system, provided it had met certain requirements. [27]

Europe

ADR European hazard sign, meaning "highly flammable" (33)--"gasoline" (1203) ADR33 UN1203.svg
ADR European hazard sign, meaning "highly flammable" (33)—"gasoline" (1203)

The European Union aligned its regulations with the GHS standards in 2008 with the adoption of CLP Regulation, replacing its existing Directive 67/548/EEC symbols during the mid-2010s, and requiring use of GHS symbols after 1 June 2017. [28] [29] Since 2015, European standards are set by:

Canada

Example WHMIS symbol WHMIS Class B.svg
Example WHMIS symbol

The Workplace Hazardous Materials Information System, or WHMIS, is Canada's national workplace hazard communication standard, first introduced in 1988, and included eight chemical hazard symbols. [30] This system was brought into alignment with GHS in 2015, with a gradual phase in of GHS symbols and label designs through 15 December 2025. [25] The WHMIS system does deviate from GHS by retaining the former WHMIS symbol for Class 3, Division 3, biohazardous infectious materials, as GHS lacks a biological hazard symbol. [25]

United States

NFPA 704 standard hazard sticker or placard NFPA 704 example.svg
NFPA 704 standard hazard sticker or placard

The US-based National Fire Protection Association (NFPA) has a standard NFPA 704 using a diamond with four colored sections each with a number indicating severity 0–4 (0 for no hazard, 4 indicates a severe hazard). [31] The system was developed in the early 1960s, as a means to warn firefighters of possible dangers posed by storage tanks filled with chemicals. The red section denotes flammability. The blue section denotes health risks. Yellow represents reactivity (tendency to explode). The white section denotes special hazard information, not properly covered by the other categories, such as water reactivity, oxidizers, and asphyxiant gases. [31]

Non-standard symbols

Sign on a fence around the Beromunster Reserve Broadcasting Tower in Switzerland, warning of high voltage and danger of death High voltage warning sign Beromuenster.JPG
Sign on a fence around the Beromünster Reserve Broadcasting Tower in Switzerland, warning of high voltage and danger of death

A large number of warning symbols with non-standard designs are in use around the world.

Some warning symbols have been redesigned to be more comprehensible to children, such as the Mr. Ouch (depicting an electricity danger as a snarling, spiky creature) and Mr. Yuk (a green frowny face sticking its tongue out, to represent poison) designs in the United States.

See also

Notes

  1. United States legislation and standards typically do not prescribe exact symbol designs. Designs can vary from those shown.
  2. Globally Harmonized System of Classification and Labelling of Chemicals [18]
  3. Workplace Hazardous Materials Information System, Canada [22]
  4. Reacts violently if mixed with water or subjected to impact/shock, or will vigorously polymerize or decompose. [22]

Related Research Articles

<span class="mw-page-title-main">ISO 3864</span> Technical standard for safety symbols

ISO 3864 specifies international standards for safety signs and markings in workplaces and public facilities. These labels are graphical, to overcome language barriers. The standard is split into four parts.

<span class="mw-page-title-main">Biological hazard</span> Biological material that poses serious risks to the health of living organisms

A biological hazard, or biohazard, is a biological substance that poses a threat to the health of living organisms, primarily humans. This could include a sample of a microorganism, virus or toxin that can adversely affect human health. A biohazard could also be a substance harmful to other living beings.

<span class="mw-page-title-main">Safety data sheet</span> Sheet listing work-related hazards of a product or substance

A safety data sheet (SDS), material safety data sheet (MSDS), or product safety data sheet (PSDS) is a document that lists information relating to occupational safety and health for the use of various substances and products. SDSs are a widely used type of fact sheet used to catalogue information on chemical species including chemical compounds and chemical mixtures. SDS information may include instructions for the safe use and potential hazards associated with a particular material or product, along with spill-handling procedures. The older MSDS formats could vary from source to source within a country depending on national requirements; however, the newer SDS format is internationally standardized.

Chemical hazards are hazards present in hazardous chemicals and hazardous materials. Exposure to certain chemicals can cause acute or long-term adverse health effects. Chemical hazards are usually classified separately from biological hazards (biohazards). Chemical hazards are classified into groups that include asphyxiants, corrosives, irritants, sensitizers, carcinogens, mutagens, teratogens, reactants, and flammables. In the workplace, exposure to chemical hazards is a type of occupational hazard. The use of personal protective equipment may substantially reduce the risk of adverse health effects from contact with hazardous materials.

<span class="mw-page-title-main">Directive 67/548/EEC</span>

The Dangerous Substances Directive was one of the main European Union laws concerning chemical safety, until its full replacement by the new regulation CLP Regulation (2008), starting in 2016. It was made under Article 100 of the Treaty of Rome. By agreement, it is also applicable in the EEA, and compliance with the directive will ensure compliance with the relevant Swiss laws. The Directive ceased to be in force on 31 May 2015 and was repealed by Regulation (EC) No 1272/2008 of the European Parliament and of the Council of 16 December 2008 on classification, labelling and packaging of substances and mixtures, amending and repealing Directives 67/548/EEC and 1999/45/EC, and amending Regulation (EC) No 1907/2006.

<span class="mw-page-title-main">Workplace Hazardous Materials Information System</span> Canadian national hazard communication standard

The Workplace Hazardous Materials Information System is Canada's national workplace hazard communication standard. The key elements of the system, which came into effect on October 31, 1988, are cautionary labelling of containers of WHMIS controlled products, the provision of material safety data sheets (MSDSs) and worker education and site-specific training programs.

<span class="mw-page-title-main">Globally Harmonized System of Classification and Labelling of Chemicals</span> International standard managed by the United Nations

The Globally Harmonized System of Classification and Labelling of Chemicals (GHS) is an internationally agreed-upon standard managed by the United Nations that was set up to replace the assortment of hazardous material classification and labelling schemes previously used around the world. Core elements of the GHS include standardized hazard testing criteria, universal warning pictograms, and safety data sheets which provide users of dangerous goods relevant information with consistent organization. The system acts as a complement to the UN numbered system of regulated hazardous material transport. Implementation is managed through the UN Secretariat. Although adoption has taken time, as of 2017, the system has been enacted to significant extents in most major countries of the world. This includes the European Union, which has implemented the United Nations' GHS into EU law as the CLP Regulation, and United States Occupational Safety and Health Administration standards.

<span class="mw-page-title-main">CLP Regulation</span> 2008 European Union regulation about chemicals

The CLP Regulation is a European Union regulation from 2008, which aligns the European Union system of classification, labelling and packaging of chemical substances and mixtures to the Globally Harmonised System (GHS). It is expected to facilitate global trade and the harmonised communication of hazard information of chemicals and to promote regulatory efficiency. It complements the 2006 Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) Regulation and replaces an older system contained in the Dangerous Substances Directive (67/548/EEC) and the Dangerous Preparations Directive (1999/45/EC).

Hazard statements form part of the Globally Harmonized System of Classification and Labelling of Chemicals (GHS). They are intended to form a set of standardized phrases about the hazards of chemical substances and mixtures that can be translated into different languages. As such, they serve the same purpose as the well-known R-phrases, which they are intended to replace.

Hazard pictograms form part of the international Globally Harmonized System of Classification and Labelling of Chemicals (GHS). Two sets of pictograms are included within the GHS: one for the labelling of containers and for workplace hazard warnings, and a second for use during the transport of dangerous goods. Either one or the other is chosen, depending on the target audience, but the two are not used together for the same hazard. The two sets of pictograms use the same symbols for the same hazards, although certain symbols are not required for transport pictograms. Transport pictograms come in wider variety of colors and may contain additional information such as a subcategory number.

European hazard symbols for chemicals are pictograms defined by the European Union for labelling chemical packaging and containers. They are standardised currently by the CLP/GHS classification.

<span class="mw-page-title-main">Pipe marking</span> Type of identification

In the process industry, chemical industry, manufacturing industry, and other commercial and industrial contexts, pipe marking is used to identify the contents, properties and flow direction of fluids in piping. It is typically carried out by marking piping through labels and color codes. Pipe marking helps personnel and fire response teams identify the correct pipes for operational, maintenance or emergency response purposes.

Chemical safety includes all safety policies, procedures and practices designed to minimize the risk of exposure to potentially hazardous chemicals. This includes the risks of exposure to persons handling the chemicals, to the surrounding environment, and to the communities and ecosystems within that environment. Manufactured chemicals, either pure or in mixtures, solutions and emulsions, are ubiquitous in modern society, at industrial, occupational and private scale. However, there are chemicals that should not mix or get in contact with others, as they can produce byproducts that may be toxic, carcinogenic, explosive etc., or can be dangerous in themselves. To avoid disasters and mishaps, maintaining safety is paramount.

ISO 7010 is an International Organization for Standardization technical standard for graphical hazard symbols on hazard and safety signs, including those indicating emergency exits. It uses colours and principles set out in ISO 3864 for these symbols, and is intended to provide "safety information that relies as little as possible on the use of words to achieve understanding."

<span class="mw-page-title-main">Safety sign</span> Type of sign

A safety sign is a sign designed to warn of hazards, indicate mandatory actions or required use of personal protective equipment, prohibit actions or objects, identify the location of firefighting or safety equipment, or marking of exit routes.

<span class="mw-page-title-main">Workplace safety standards</span> Standards to reduce occupational risk

Workplace safety standards are sets of standards developed with the goal of reducing risk from occupational hazards.

<span class="mw-page-title-main">ANSI Z35</span> An American technical standard for safety signs

ANSI Z35.1 the Specifications for Accident Prevention Signs, was an American standard that dictated the layout, colors and wording of safety signs in the United States. The standard is the first American standard that made specific demands for the design, construction, and placement of safety signage in industrial environments. The first edition was published in January 1941, and the fourth and final edition in November 1972. Changes in societal needs of signage, and further research into signage would result in the establishment of a new committee, the ANSI Z535 Committee on Safety Signs and Colors, combining the separate committees of Z35.1 - Specifications for Accident Prevention Signs, Z35.2 - Specifications for Accident Prevention Tags, and Z53 - Marking Physical Hazards Safety Color Code, resulting in a new combined standard, ANSI Z535.

<span class="mw-page-title-main">Directive 92/58/EEC</span> European Directive harmonizing safety signs

The Directive 92/58/EEC specifies the minimum requirements for safety signs within the European Union. It superseded the Directive 77/576/EEC. While not being replaced by the standard ISO 7010, both signage systems can be used. This directive does not apply to signage used for controlling roadway, railway, waterway or air transportation.

<span class="mw-page-title-main">Health and Safety (Safety Signs and Signals) Regulations</span> United Kingdom legislation

The Health and Safety Regulations 1996 specify the safety signs within Great Britain, Northern Ireland has a similar law. It was issued as a transposition of the European directive 92/58/EEC and replaced The Safety Signs Regulations 1980. They consist of "traditional safety signs", such as prohibitory and warning signs, hand signals, spoken and acoustic signals and hazard marking.

References

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  15. "Drop it". Deccan Herald. 26 June 2007. Archived from the original on 2009-02-10.
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  18. "Globally Harmonized System of Classification and Labelling of Chemicals" (pdf). 2021. Annex 3: Codification of Statements and Pictograms (pp 268385).
  19. International Organization for Standardization (June 2011). "ISO 7010:2011 - Graphical symbols — Safety colours and safety signs — Registered safety signs" . Retrieved 8 June 2024.
  20. "Council Directive 92/58/EEC of 24 June 1992 on the minimum requirements for the provision of safety and/or health signs at work (ninth individual Directive within the meaning of Article 16 (1) of Directive 89/391/EEC)". Official Journal of the European Communities. 35: 23–42. 26 August 1992. Retrieved 22 August 2023.
  21. Commission Directive 2001/59/EC of 6 August 2001 adapting to technical progress for the 28th time Council Directive 67/548/EEC on the approximation of the laws, regulations and administrative provisions relating to the classification, packaging and labelling of dangerous substances. OJEC L225, 21 August 2001, pp. 1–333.
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  24. 1 2 Regulation (EC) No 1272/2008 of the European Parliament and of the Council of 16 December 2008 on classification, labelling and packaging of substances and mixtures, amending and repealing Directives 67/548/EEC and 1999/45/EC, and amending Regulation (EC) No 1907/2006.. Article 60. pp 34.
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  31. 1 2 National Fire Protection Association (2022). "NFPA 704". nfpa.org. Retrieved 21 June 2024.
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