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| ==Linguistics: Flammable vs. inflammable== | ==Linguistics: Flammable vs. inflammable== | ||
| {{wiktionarypar|flammable|inflammable}} | {{wiktionarypar|flammable|inflammable}} | ||
| The word "inflammable" came from Latin ''inflammāre'' = "to set fire to", where the prefix ''in-'' means "in" as in "inside" (compare English "in flames"). But there have been instances of people thinking that this "in-" prefix means "not" as in "invisible" and "incombustible" etc, and thus wrongly thinking that "inflammable" means "cannot burn". To avoid this ], the shortened word "flammable" has come into use in recent years. | The word "inflammable" came from Latin ''inflammāre'' = "to set fire to", where the prefix ''in-'' means "in" as in "inside" (compare English "in flames"). But there have been instances of some less educated people thinking that this "in-" prefix means "not" as in "invisible" and "incombustible" etc, and thus wrongly thinking that "inflammable" means "cannot burn". To avoid this ], the shortened word "flammable" has come into use in recent years. | ||
| (The French for "non-inflammable" is ''ininflammable'', with a negative ''in-'' plus an ''in-'' meaning "inside".) | (The French for "non-inflammable" is ''ininflammable'', with a negative ''in-'' plus an ''in-'' meaning "inside".) | ||
Revision as of 17:14, 25 November 2007
Flammability is the ease with which a substance will ignite, causing fire or combustion.
Testing
A fire test can be conducted to determine the degree of flammability. Test standards used to make this determination include, but are not limited to the following:
- Underwriters Laboratories UL 94 Flammability Testing
- International Electrotechnical Commission IEC 60707, 60695-11-10 and 60695-11-20
- International Organization for StandardizationISO 9772 and 9773.
- National Fire Protection Association NFPA 287 Standard Test Methods for Measurement of Flammability of Materials in Cleanrooms Using a Fire Propagation Apparatus (FPA)
- NFPA 701: Standard Methods of Fire Tests for Flame Propagation of Textiles and Films
Categorisation of building materials
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DIN4102 A1 noncombustible rockwool
-
DIN4102 A2 gypsum fireproofing plaster leavened with polystyrene beads
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DIN 4102 B1 (difficult to ignite/often self-extinguishing) Silicone caulking used as a component in firestopping piping penetration
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DIN 4102 B2: Timber, normal combustibility
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DIN 4102 B3: Polyurethane foam (easy to ignite = lots of hydrocarbon bonds usually)
Materials can be tested for the degree of flammability and combustibility in accordance with DIN 4102. DIN 4102, as well as its British cousin BS476 include for testing of passive fire protection systems, as well as some if its constituent materials. The following are the categories in order of degree of combustibility as well as flammability:
- A1 (100% noncombustible = nichtbrennbar)
- A2 (~98% noncombustible = nichtbrennbar)
- B1 difficult to ignite (schwer entflammbar) Example: intumescents and some high end silicones
- B2 normal combustibility (like wood
- B3 easily ignited (leichtentflammbar)
Important Characteristics
Flash point
Flash points below
| from Combustibility and flammability | to Combustibility and flammability | |
|---|---|---|
| Celsius | x K ≘ (x − 273.15) °C | x °C ≘ (x + 273.15) K |
| Fahrenheit | x K ≘ (x × 9/5 − 459.67) °F | x °F ≘ (x + 459.67) × 5/9 K |
| Rankine | x K ≘ x × 9/5 °R | x °R ≘ x × 5/9 K |
| For temperature intervals rather than specific temperatures, 1 K = 1 °C = 9/5 °F = 9/5 °R Conversion between temperature scales | ||
are regulated in the United States by OSHA as potential workplace hazards.
Vapour pressure
- The vapour pressure is an important parameter in determining the ease of ignition. The higher the vapour pressure, the more flammable vapour is evolved from a free liquid surface at a given temperature.
Examples of flammable liquids
Flammable liquids include, but are not limited to:
Examples of nonflammable liquids
Codes
Building codes
Building codes typically apply to new construction, whereas fire codes apply to existing structures. Early Building codes saw materials as either combustible or noncombustible. The typical combustibility tests are rather harsh, usually exposing a sample to a fire test and then quantifying the loss of mass afterwards. Materials that pass those tests include concrete, stone, steel, etc. Over time, more building materials became available that had combustible constituents. It therefore became necessary to quantify the degree of combustibility, which roughly tracks the percentage of covalently bound, or organic ingredients by percentage, as a general rule of thumb. There are exceptions, of course, due to the use of fire retardant ingredients, whose purpose is to reduce the flammability of the end product. With the advent of materials of "limited combustibility", codes are continuing to be refined in terms of what degree of combustibility to allow in which occupancy. For example, in Ontario, the Ontario Building Code differentiates between "Part 9" (of the OBC) buildings, which are combustible, such as timber frame single family homes, and "Part 3" (of the OBC) noncombustible buildings. But even within these categories, degrees of combustibility are noted for certain applications. For instance, one may use foamed plastics, even in a Part 3 building, but only if sufficiently concealed with noncombustible elements. Drywall is an example of a limited combustibility product, as the paper burns, whereas the gypsum calcines in a fire. Certain types of plastic pipe are permissible even in some Part 3 buildings, for instance CPVC piping for use in fire sprinkler applications, provided the building is not too tall and firestops are correctly employed. ABS piping, on the other hand, is not ordinarily allowed in Part 3 buildings because of its flammability. ABS catches on fire and spreads fire very quickly, whereas plastics with lower flammability do not pose as large a problem. With the presence of significant quantities of flammable substances, special provisions are employed to ensure that if a fire should occur, it is less likely to get out of control. An example of this is if a transformer, which contains flammable liquids, is often located in a fire compartment with a three hour fire-resistance rating, whereas many other walls and floors in the same building can have lesser ratings, such as 2 hours and 1 hour.
Fire codes
For existing buildings, fire codes focus on maintaining the occupancies as originally intended. In other words, if a portion of a building were designed as an apartment, one could not suddenly load it with flammable liquids and turn it into a gas storage facility, because the fire load and smoke development in that one apartment would be so immense as to overtax the active fire protection as well as the passive fire protection means for the building. The handling and use of flammable substances inside a building is subject to the local fire code, which is ordinarily enforced by the local fire precention officer.
Linguistics: Flammable vs. inflammable
The word "inflammable" came from Latin inflammāre = "to set fire to", where the prefix in- means "in" as in "inside" (compare English "in flames"). But there have been instances of some less educated people thinking that this "in-" prefix means "not" as in "invisible" and "incombustible" etc, and thus wrongly thinking that "inflammable" means "cannot burn". To avoid this safety hazard, the shortened word "flammable" has come into use in recent years.
(The French for "non-inflammable" is ininflammable, with a negative in- plus an in- meaning "inside".)
The Elements of Style ("Strunk and White"), on the other hand, says:
- Flammable. An oddity, chiefly useful in saving lives. The common word meaning "combustible" is inflammable. But some less educated people are thrown off by the in- and think inflammable means "not combustible." For this reason, trucks carrying gasoline or explosives are now marked FLAMMABLE. Unless you are operating such a truck and hence are concerned with the safety of children and illiterates, use inflammable.
External links
- Videos showing flammability of cables based on jacket rating
- Fire Performance of Ageing Cable Compounds, NFPA Treatise by Dr. Perry Marteny