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Tungsten or Wolfram Facts
Chemical &
Physical Properties of Tungsten
by Anne Marie
Helmenstine, Ph.D.
Tungsten is a grayish-white transition metal with atomic number
74 and element symbol W. The symbol comes from another name for the element — wolfram.
While the name tungsten is approved by the IUPAC and is used in
Nordic countries and those speaking English or French, most European countries
use the name wolfram.
Here is a collection of tungsten or wolfram facts, including the
element's properties, uses, and sources.
Tungsten or Wolfram Basic
Facts
Tungsten Atomic Number: 74
Tungsten Symbol: W
Tungsten Atomic Weight: 183.85
Tungsten Discovery: Juan
Jose and Fausto d'Elhuyar purified tungsten in 1783 (Spain), although Peter
Woulfe examined the mineral which came to be known as wolframite and determined
that it contained a new substance.
Tungsten Electron
Configuration: [Xe] 6s2 4f14 5d4
Word Origin: Swedish tung sten, heavy stone or wolf rahm and spumi lupi, because
the ore wolframite interfered with tin smelting and was believed to devour the
tin.
Tungsten Isotopes: Natural
tungsten consist of five stable isotopes. Twelve unstable isotopes are known.
Tungsten Properties: Tungsten
has a melting point of 3410+/-20°C, boiling point of 5660°C, specific gravity
of 19.3 (20°C), with a valence of 2, 3, 4, 5, or 6.
Tungsten is a steel-gray to tin-white metal. Impure tungsten
metal is quite brittle, although pure tungsten can be cut with a saw, spun,
drawn, forged, and extruded.
Tungsten has the highest melting point and the lowest vapor
pressure of the metals.
At temperatures exceeding 1650°C, it has the highest tensile
strength.
Tungsten oxidizes in air at elevated temperatures, although it
generally has excellent corrosion resistance and is minimally attacked by most
acids.
Tungsten Uses: The
thermal expansion of tungsten is similar to that of borosilicate glass, so the
metal is used for glass/metal seals.
Tungsten and its alloys are used to make filaments for electric
lamps and television tubes, as electrical contacts, x-ray targets, heating
elements, for metal evaporation components, and for numerous other high
temperature applications.
Hastelloy, Stellite, high-speed tool steel, and numerous other
alloys contain tungsten.
Magnesium and calcium tungstenates are used in fluorescent
lighting.
Tungsten carbide is important in the mining, metalworking, and
petroleum industries.
Tungsten disulfide is used as a dry high-temperature lubricant.
Tungsten bronze and other tungsten compounds are used in paints.
Tungsten Sources: Tungsten
occurs in wolframite, (Fe, Mn)WO4,
scheelite, CaWO4, ferberite, FeWO4, and
huebnerite, MnWO4.
Tungsten is produced commercially by reducing tungsten oxide
with carbon or hydrogen.
Biological Role:
Tungsten is the heaviest element with known biological functionality.
No use in humans or other eukaryotes is known, but the element
is used by bacteria and archaea in enzymes, principally as a catalyst.
It functions in much the same ways as the element molybdenum
does in other organisms.
When tungsten compounds are introduced to soil, they inhibit
earthworm reproduction.
Scientists are studying the use of tetrathiotungstates for use
in biological copper chelation.
Tungsten is a rare element, initially thought to be inert and
only slightly toxic to humans.
However, now it is known tungsten dust inhalation, skin contact,
or ingestion can cause cancer and other negative health effects.
Tungsten or Wolfram Physical
Data
Element Classification: Transition Metal
Density (g/cc): 19.3
Melting Point (K): 3680
Boiling Point (K): 5930
Appearance: tough gray to white metal
Atomic Radius (pm): 141
Atomic Volume (cc/mol): 9.53
Covalent Radius (pm): 130
Ionic Radius: 62
(+6e) 70 (+4e)
Specific Heat (@20°C
J/g mol): 0.133
Fusion Heat (kJ/mol): (35)
Evaporation Heat (kJ/mol): 824
Debye
Temperature (K): 310.00
Pauling Negativity Number: 1.7
First Ionizing Energy (kJ/mol): 769.7
Oxidation States: 6,
5, 4, 3, 2, 0
Lattice Structure: Body-Centered
Cubic
Lattice Constant (Å): 3.160
Anne
Marie Helmenstine, Ph.D.
Ph.D. in
biomedical sciences from the University of Tennessee at Knoxville - Oak Ridge
National Laboratory.
Science
educator with experience teaching chemistry, biology, astronomy, and
physics at the high school, college, and graduate levels.
ThoughtCo
and About Education chemistry expert since 2001.
Widely-published
graphic artist, responsible for printable periodic tables and other
illustrations used in science.
Experience
Anne
Helmenstine, Ph.D. has covered chemistry for ThoughtCo and About Education
since 2001, and other sciences since 2013. She taught chemistry, biology,
astronomy, and physics at the high school, college, and graduate levels.
She has worked as a research scientist and also abstracting and indexing
diverse scientific literature for the Department of Energy.
In
addition to her work as a science writer, Dr. Helmenstine currently serves as a
scientific consultant, specializing in problems requiring an interdisciplinary
approach. Previously, she worked as a research scientist and college
professor.
Education
Dr.
Helmenstine holds a Ph.D. in biomedical sciences from the University of
Tennessee at Knoxville and a B.A. in physics and mathematics with a minor
in chemistry from Hastings College. In her doctoral work, Dr. Helmenstine
developed ultra-sensitive chemical detection and medical diagnostic tests.
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