Identification | Back Directory | [Name]
Poly(tetrafluoroethylene) | [CAS]
9002-84-0 | [Synonyms]
fn3 t5b t8a T 5B T 8A te30 l169 TL-R TL-V FT-4 FN 3 g163 PTFE f103 f4mb f4k20 Fluon F 103 F 4MB Aflon G 163 unonp tl102 L 169 TE 30 Unon P TL 102 TL 115 TL 125 TL 126 TEFLON F 4K20 fbf74d f4zh20 FBF 74D F 4Zh20 amip15m fluong4 Valflon Velflon teflonk Tarflen Polytef teflon5 teflon6 Polifen Politef halong80 Polyfene Polyflon teflon6c teflon30 teflont5 teflont6 Teflon 5 Teflon 6 Teflon K proplast Ptfe-gm3 tetran30 PTFEFUME Teflon60 fluongpi fluoncd1 Gore-tex ftorlon4 dixon164 DLX-6000 Amip 15M Fluo-kem Fluon G4 Fluon gpi Fluon CDI Fluon AD1 Algloflon TEFLON 7A bdh29-801 Dixon 164 ftorlon4m Heydeflon Hostaflon fluong163 fluong201 fluonl169 fluonl170 fluonl171 Ftorlon 4 teflont30 Tetran 30 Teflon 6C Teflon 30 Teflon T5 teflontfe teflon110 halong183 halong700 Halon G 80 polyflond1 Teflon tfe Teflon T 6 soreflon5a Teflon 110 tetranptfe Ftorlon 4M Fluoroflex Fluorolene fluorolon4 Fluoromelt fluonl169b fluoncd023 fluoncd042 balfon7000 BDH 29-801 duroid5870 ek1108gy-a algoflonsv Fluon G163 Fluon G170 Fluon G201 Fluon AD1H Fluon AD1L Fluon cd 1 Fluon L 170 Fluon L 171 Fluon L 169 ethiconptfe Algoflon sv EK 1108GY-A Emralon 304 Balfon 7000 Duroid 5870 Fluorolon 4 fluoropak80 Halon G 183 Halon G 700 ftoroplast4 Tetran ptfe PTFE resins PTFE POWDER CEFRAL LUBE soreflon604 Soreflon 5A Teflon T 30 polyflonm12 polyflonm21 Polyflon D1 hostaflontf molykote522 Molykote 522 halontfeg180 Polyflon M12 polyflonf103 polyflonm12a Polyflon M21 Soreflon 604 CHROMOSORB T ftoroplast4b ftoroplast4d ftoroplast4m ftorlonf-4mb Ftoroplast 4 Hostaflon tf Fluoropak 80 TEFLON(TM) 6 Ethicon ptfe Fluon L 169B Fluon cd 023 Fluon cd 042 TEFLON(TM) 7A Ftorlon F-4mb fluoroplast4b fluoroplast4d fluoroplast4m Ftoroplast 4B Ftoroplast 4D Ftoroplast 4M ftoroplastf-4 zitexh662-124 zitexk223-122 Polyflon M12A Fluoropolymer Ground sockets BRAND? stirrer Polyflon F 103 Halon tfeg 180 PTFE=Teflon(R) ftoroplastf4mb ftoroplast4k20 Fluorosint 500 Ftoroplast F-4 Fluoroplast 4B Fluoroplast 4D Fluoroplast 4M TEFLON(TM) 30B alkathenerxdg33 Emralon 8301-01 fluoroporefp120 Ftoroplast 4K20 CHROMOSORB(R) T ZITEX H 662-124 ZITEX K 223-122 hostaflontf2026 hostaflontf2053 polyflonek4108gy PTFE dispersion Ftoroplast F 4mb ftoroplastfbf74d Alkathene rxdg33 Sampling dippers PTFE fine powder PTFE micro powder Hostaflon TF 1101 Hostaflon TF 1620 Hostaflon tf 2026 Hostaflon tf 2053 Hostaflon TF 2071 Hostaflon TF 5032 Fluoropore fp 120 Fluorocomp FC-101 Fluorocomp FC-144 Fluorocomp FC-174 Fluorocomp FC-182 Ftoroplast fbf 74D polyflonek1108gy-a Polyflon ek 4108gy Conical joint clips Fluorinated polymer Crystallizing dishes BRAND? ground socket Polyflon ek 1108gy-A Poly(tetrafluoroethy Emralon 8301-01, 304 Electrafil TR-1900/EC Fluon AD1, AD1L, AD1H fluoroethylenepolymer Polytetrafluoroethene PTFE superfine powder Conical joint stopper Magnetic Stirring Bars polytetrafluroethylene poly(difluoromethylene) POLYTETRAFLUOROSTHYLENE POLYTETRAFLUOROETHYLENE tetrafluoroethenepolymer perfluoroethylenepolymer Tetrafluoroethene polymer TETRAFLUOROETHYLENE RESIN BRAND? conical joint clip PTFE)Poly(tetrafluoroethy PTFE MOLDING POWDER RENSIN BRAND? ground joint sleeve tetrafluoro-ethylenpolymer tetrafluoroethylenepolymer tetrafluoroethylenepolymers tetrafluoro-ethylenpolymers poly(ethylenetetrafluoride) Ethylenetetrafluoro-polymer TETRAFLUOROETHYLENE OLIGOMER Poly(ethylene tetrafluoride) Polytetrafluoroethyleneresin Tetrafluoroethylene polymers tetrafluoroethenehomopolymer tetrafluoro-ethenhomopolymer Polytetrafluoroethylene film POLY(TETRAFLUOROETHENE)FUMES PTFE concentrationdispersion Poly(tetrafluoroethylene) 5GR PTFE PRESINTERED POWDER RESIN Tetrafluoroethyl methyl ether Tetrafluoroethene homopolymer tetrafluoroethylenehomopolymer Polytetrafluoroethylene resins Tetrafluoroethylene homopolymer Ethene,tetrafluoro-,homopolymer Ethylene, tetrafluoro-, polymer Poly(tetrafluoroethylene) 100GR MOLDING PTFE FINE GRANULAR RESIN POLYTETRAFLUOROETHYLENE OLIGOMER Polytetrafluoroethylene emulsion Poly(tetrafluoroethylene), powder Ethene, tetrafluoro-, homopolymer MOLDING PTFE FINE GRANULAR RENSIN BRAND? sampling dipper with spout Polytetrafluoroethylene preparatio BRAND? magnetic stirring bar, PTFE BRAND? forcep with rectangular ends BRAND? stopcock T-bore with nozzles POLYTETRAFLUOROETHYLENE PREPARATION Polytetrafluoroethylene, 6-10 micron teflon(polytetrafluoroethylene,ptfe) BRAND? stopcock one-way with nozzles poly(tetrafluoroethylene) fine powder Poly(tetrafluoroethylene) beads, white Polytetrafluoroethylene, aq. dispersion Polytetrafluoroethylene beaker,products Polytetrafluoroethylene resin,suspension Polytetrafluoroethylene resin,dispersion POLYTETRAFLUOROETHYLENE, 60 WT.% DISPER& POLYTETRAFLUOROETHYLENE 60 WT. % & polytetrafluoroethylene superfine powder BRAND? extension rod for sampling dippers Polytetrafluoroethylene powder,ultra-fine Fluorocomp FC-101, FC-144, FC-174, FC-182 POLYTETRAFLUOROETHYLENE, POWDER, 35 MICRON PTFE,Fluorinated polymer Fluoropolymer PTFE Polytetrafluoroethylene Powder (Regenerated) POLYTETRAFLUOROETHYLENE, POWDER, 100 MIC RON Polytetrafluoroethylene resin,paste extrusion Poly(tetrafluoroethylene), aqueous dispersion BRAND? magnetic stirring bar, PTFE, crosshead BRAND? magnetic stirring bar, PTFE, spherical Polytetrafluoroethylene resin,suspension F104M BRAND? magnetic stirring bar, PTFE, disc-shaped BRAND? magnetic stirring bar, PTFE, double-ended Polytetrafluoroethylene,dispersion liquid,general Polytetrafluoroethylene preparation,PTFE dispersion BRAND? crystallizing dish, cylindrical without spout Poly(tetrafluoroethylene), 60 wt % dispersion in H2O Poly(tetrafluoroethylene) powder, 35 MuM particle size POLYTETRAFLUOROETHYLENE(SUSPENSIONMEDIUM-SIZEGRANULES) Poly(tetrafluoroethylene) powder, >40 mum particle size Poly(tetrafluoroethylene) powder, 200 mum particle size Poly(tetrafluoroethylene) powder, >=350 mum particle size BRAND? magnetic stirring bar, PTFE, round, with crosshead Polytetrafluoroethylene preparation 60 wt % dispersion in H2O BRAND? magnetic stirring bar, PTFE, triangular with pivot rim Polytetrafluoroethylene dispersing liquid,concentrated dipping type Poly(tetrafluoroethylene) powder (free-flowing), 1 MuM particle size Poly(tetrafluoroethylene) powder (free-flowing), <=12 MuM particle size polytetrafluoroethylene,poly(ethylenetetrafluoride),tetrafluoroethylenepolymer,tetrafluoroethylenehomopolymer | [EINECS(EC#)]
204-126-9 | [Molecular Formula]
(C2F4)n | [MDL Number]
MFCD00084455 | [MOL File]
9002-84-0.mol |
Chemical Properties | Back Directory | [Appearance]
white powder, or white solid with a slippery feel | [Melting point ]
327 °C
| [Boiling point ]
400 °C
| [density ]
2.15 g/mL at 25 °C
| [refractive index ]
1.35
| [storage temp. ]
Store at -20°C | [solubility ]
Solubility in water:
| [form ]
powder
| [color ]
white
| [Specific Gravity]
2 | [Odor]
at 100.00?%. odorless | [Stability:]
Stable-unreactive with most materials. Incompatible with molten alkali metals, fluorine and other halogens, strong oxidizing agents. | [Water Solubility ]
Insoluble in water. Soluble in perfluoro kerosene. | [Merck ]
14,7562 | [Dielectric constant]
2.0(Ambient) | [Uses]
PTFE (polytetrafluoroethylene) is a bulking agent, it is also used in cosmetic preparations to improve the formulation’s feel and spreadability. PTFe may also have some waterproofing potential. | [IARC]
3 (Vol. 19, Sup 7) 1987 | [NIST Chemistry Reference]
Polytetrafluoroethylene, annealed(9002-84-0) | [EPA Substance Registry System]
Ethene, tetrafluoro-, homopolymer(9002-84-0) |
Hazard Information | Back Directory | [Chemical Properties]
white powder, or white solid with a slippery feel | [Uses]
Inert lubricant. | [Uses]
polytetrafluoroethylene powder be used for plastic modification, average particle size is about 3-5 and 10-20 micrometer, PTFE has excellent performance, it has unique properties, including, no self-coagulation, no electrostatic effect, good intermiscibility, low molecular weight, good dispersion, high self-lubrication, low friction coefficient, etc. | [Definition]
ChEBI: A polymer composed of repeating tetrafluoroethyl groups. | [Hazard]
Evolves toxic fumes on heating. Question-
able carcinogen.
| [History]
The polymerized form of TFE was discovered accidentally by researchers at DuPont in 1938. During the mid-1930s, DuPont was investigating the development of new chlorofl uorocarbons (CFCs) for use as refrigerants. DuPont joined with General Motors to form a company called Kinetic Chemicals to combine their efforts in this area. Plunkett examined the properties of the substance. He discovered that the substance was inert to other chemicals, had a high melting point, and was very slippery. Plunkett also worked on duplicating the conditions necessary to produce it from TFE. He applied for a patent for polytetrafl uoroethylene polymers in 1939, which was granted in 1941 (U.S. Patent 2230654). He assigned the patent to Kinetic Chemicals. DuPont registered the term Tefl on in 1945 and introduced Tefl on products the next year. Teflon is best known for its use in cookware, but its use in this area followed original industrial
applications in gaskets, sealers, tape, and electrical insulation. Th ese applications were a
direct result of the use of PTFE for military purposes during World War II. | [Production Methods]
Polytetrafluoroethylene is generally made from tetrafluoroethylene
gas by free-radical polymerization under pressure
with oxygen, peroxides, or peroxydisulfates. The “granular
resins” have medium-size particles that range from 30 to
600 mm. Colloidal aqueous dispersions, made by a different
process, are concentrated to about 60% by weight of the
polymer and have particles that average about 0.2 mm.
Coagulated dispersions with agglomerates that average
450mm are also available .
The use of PTFE as a release agent in coatings and certain
other food contact applications is permitted under FDA
regulations . | [General Description]
Poly(tetrafluoroethylene) is a fluoropolymer that is commercially known as PTFE. Its properties include high thermal stability, excellent chemical resistance, low dielectric constant and low surface energy. It is a hydrophobic polymer that is majorly used as a protective coating on the metal surface. | [Health Hazard]
Fumes of heated polytetrafluoroethylene (PTFE) cause polymer fume fever,
an influenza-like syndrome. | [Industrial uses]
The polymer is insoluble, resistant to heat (upto 275°C) and chemical attack, and, in addition,has the lowest coefficient of friction of any solid.Because of its resistance to heat, the fabricationof polytetrafluoroethylene requires modificationof conventional methods. After molding thepowdered polymer using a cold press, the moldingsare sintered at 360 to 400°C by proceduressimilar to those used in powder metallurgy. Thesintered product can be machined or punched.Extrusion is possible if the powder is compoundedwith a lubricating material. Aqueoussuspensions of the polymer can also be used forcoating various articles. However, special surfacetreatments are required to ensure adhesionbecause polytetrafluoroethylene does not adherewell to anything. Polytetrafluoroethylene (TFE resin) is usefulfor applications under extreme conditions ofheat and chemical activity. Polytetrafluoroethylenebearings, valve seats, packings, gaskets,coatings, and tubing can withstand relativelysevere conditions. Fillers such as carbon, inorganicfibers, and metal powders may be incorporatedto modify the mechanical and thermalproperties. Because of its excellent electrical properties,polytetrafluoroethylene is useful when adielectric material is required for service at ahigh temperature. The nonadhesive quality isoften turned to advantage in the use of polytetrafluoroethyleneto coat articles such as rollsand cookware to which materials might otherwiseadhere. | [Carcinogenicity]
Animal studies have not demonstrated
that this polymer is carcinogenic. No data are
available in humans. The polymer is not classifiable as to
its human carcinogenicity. However, the EPA found that
perfluorooctanoic acid (PFOA), a chemical used to produce
PTEE is a “l(fā)ikely carcinogen. | [Environmental Fate]
PTFE is the most stable of all TFE polymers and under physiological
conditions does not release any components (IARC
Monograph 74, 1999). PTFE is very inert chemically; only alkali
metals and fluorine under pressure attack PTFE (Hazardous
Substances Data Bank (HSDB)). There are no known ecotoxicological
effects for PTFE (DuPont MSDS, 2011). | [Toxicity evaluation]
There is no apparent mechanism of toxicity for orally administered
PTFE as no toxicologically significant effects were
observed following oral administration to rats for up to
90 days. The lack of toxicity is most likely due to the following:
(1) gastrointestinal absorption of PTFE is negligible given its
extremely high molecular weight (1 000 000–10 000 000 for
PTFE fine powder); (2) PTFE is chemically inert under physiologic
conditions; and (3) PTFE is not metabolized (Donovan
et al., 1990; Kim, 1996; Veber et al., 2002). The mechanism
of action of subcutaneously injected PTFE in mice is attributed
to localized inflammation consistent with a foreignbody
response; similar effects were seen following subareolar
injection in rabbits and dogs, and periurethral injections
in dogs.
When PTFE is heated or exposed to temperatures ≥200°C,
it will decompose and release toxic vapors that cause polymerfume
fever in humans. |
Safety Data | Back Directory | [Hazard Codes ]
Xi,T,Xn | [Risk Statements ]
41-36/38-45-48/20 | [Safety Statements ]
26-39-24/25-45-22-53-23 | [WGK Germany ]
3
| [RTECS ]
KX4025000
| [Hazard Note ]
Irritant | [TSCA ]
Yes | [HS Code ]
39046100 | [Safety Profile]
The finished polymerized compound is inert under ordinary condtions. There have been reports of “polymer fume fever” in humansexposed to pyrolysis products, whch also are irritants. Smohng should be prohibited in areas where ths material is being fabricated or, in general, where there may be dust from it. Exposure to pyrolysis or decomposition products appears to be the chief health-related problem. Questionable carcinogen with experimental tumorigenic data by implant. Incompatible with fluorine, sodmm potassium alloy. Under the proper conditions it undergoes hazardous reactions with boron, magnesium, or titanium. When heated to above 750°F it decomposes to yield highly toxic fumes of F-. | [Hazardous Substances Data]
9002-84-0(Hazardous Substances Data) |
Questions And Answer | Back Directory | [Description]
Poly-(Tetrafluoroethylene) (PTFE, Brand name: Teflon, Fluon, Hostaflon, and Polyflon) is a kind of strong, tough, waxy and nonflammable synthetic resin. Its structure formula is [CF2-CF2]n with a carbon backbone chain. It is produced through the free-radical polymerization of tetrafluoroethylene. PTFE has slippery surface, high melting point, and is extremely chemically inert. This property make it have a lot of applications. Its biggest application is for the wiring in aerospace and computer applications due to its excellent dielectric properties, e.g. as the insulator in cables and connector. In industry, PTFE can be applied in places where sliding action of parts is required due to its low friction such as plain bearings, gears and slide plates. PTFE is also applied in the production of carbon fiber composites and fiberglass composites. In addition, owing to its chemical inertia and high thermal resistance, PTFE is applied in places where acids, alkalis or other chemical are used, e.g. as the liner in industrial pipe lines.
| [Preparation]
Poly(tetrafluoroethylene) is prepared from tetrafluoroethylene and consists of repeating units in a predominantly linear chain:
F2C=CF2 --->[-CF2-CF2-]n
Tetrafluoroethylene polymer has the lowest coefficient of friction of any solid. It has remarkable chemical resistance and a very low brittleness temperature (100C). Its dielectric constant and loss factor are low and stable across a broad temperature and frequency range. Its impact strength is high.
| [References]
http://pslc.ws/macrog/ptfe.htm
https://global.britannica.com/science/polytetrafluoroethylene
https://en.wikipedia.org/wiki/Polytetrafluoroethylene#Other
|
|
|