Cutting tools for machining Sintered tungsten carbide–cobalt
cutting tools are very abrasion resistant and can also withstand higher temperatures than standard
high-speed steel (HSS) tools. Carbide cutting surfaces are often used for
machining tough materials such as
carbon steel or
stainless steel, and in applications where steel tools would wear quickly, such as high-quantity and high-precision production. Because carbide tools maintain a sharp cutting edge better than steel tools, they generally produce a better finish on parts, and their temperature resistance allows faster machining. The material is usually called
cemented carbide, solid carbide, hardmetal or tungsten-carbide cobalt. It is a
metal matrix composite, where tungsten carbide particles are the aggregate, and metallic
cobalt serves as the matrix. It has been found wear and oxidation properties of cemented carbide can be improved by replacing cobalt with iron aluminide. Using iron also reduces cost, as cobalt is particularly expensive, but the mixing is best done with resonant acoustic mixing.
Ammunition Tungsten carbide, in its monolithic sintered form, or much more often in cemented tungsten carbide cobalt composite (see above), is often used in
armor-piercing ammunition, especially where
depleted uranium is not available or is politically unacceptable. projectiles were first used by German
Luftwaffe tank-hunter squadrons in
World War II. However, owing to the limited German reserves of tungsten, material was reserved for making machine tools and small numbers of
projectiles. It is an effective penetrator due to its combination of great hardness and very high density. Tungsten carbide ammunition is now generally of the
sabot type. SLAP, or
saboted light armour penetrator, where a plastic sabot discards at the barrel muzzle, is one of the primary types of saboted small arms ammunition. Non-discarding jackets, regardless of the jacket material, are not perceived as sabots but as bullets. Both of the designs are, however, common in designated light armor-piercing small arms ammunition. Discarding sabots such as are used with M1A1 Abrams main gun are more commonplace in precision high-velocity gun ammunition.
Mining and foundation drilling Tungsten carbide is used extensively in mining in top hammer rock drill bits,
downhole hammers,
roller-cutters,
long wall plough chisels,
long wall shearer picks,
raiseboring reamers, and
tunnel boring machines. In these applications it is also used for wear and corrosion resistant components in inlet control for well screens, sub-assemblies, seal rings and bushings common in oil and gas drilling. It is generally utilised as a button insert, mounted in a surrounding matrix of steel that forms the substance of the bit. As the tungsten carbide button is worn away the softer steel matrix containing it is also worn away, exposing yet more button insert.
Nuclear . Tungsten carbide is also an effective
neutron reflector and as such was used during early investigations into nuclear chain reactions, particularly for weapons. A
criticality accident occurred at
Los Alamos National Laboratory on 21 August 1945 when
Harry Daghlian accidentally dropped a tungsten carbide brick onto a
plutonium sphere, known as the
demon core, causing the
subcritical mass to go supercritical with the reflected
neutrons. He fell into a coma and died 25 days after the accident.
Sports usage bicycle tire with tungsten carbide spikes. The spikes are surrounded by aluminium.
Trekking poles, used by many
hikers for balance and to reduce pressure on leg joints, generally use carbide tips in order to gain traction when placed on hard surfaces (like rock); carbide tips last much longer than other types of tip. While
ski pole tips are generally not made of carbide, since they do not need to be especially hard even to break through layers of ice, rollerski tips usually are.
Roller skiing emulates
cross country skiing and is used by many skiers to train during warm weather months. Sharpened carbide tipped spikes (known as studs) can be inserted into the drive tracks of
snowmobiles. These studs enhance traction on icy surfaces. Longer v-shaped segments fit into grooved rods called wear rods under each snowmobile ski. The relatively sharp carbide edges enhance steering on harder icy surfaces. The carbide tips and segments reduce wear encountered when the snowmobile must cross roads and other abrasive surfaces. Car, motorcycle and bicycle
tires with tungsten carbide studs provide better traction on ice. They are generally preferred to steel studs because of their superior resistance to wear. Tungsten carbide may be used in
farriery, the shoeing of
horses, to improve traction on slippery surfaces such as roads or ice. Carbide-tipped hoof nails may be used to attach the
shoes; in the United States,
borium – chips of tungsten carbide in a matrix of softer metal such as
bronze or mild steel – may be welded to small areas of the underside of the shoe before fitting.
Surgical instruments and medical Tungsten carbide is also used for making surgical instruments meant for open surgery (scissors, forceps, hemostats, blade-handles, etc.) and
laparoscopic surgery (graspers, scissors/cutter, needle holder, cautery, etc.). They are much costlier than their stainless-steel counterparts and require delicate handling, but give better performance.
Jewelry Tungsten carbide, typically in the form of a
cemented carbide (carbide particles
brazed together by metal), has become a popular material in the bridal jewelry industry due to its extreme hardness and high resistance to scratching. Even with high-impact resistance, this extreme hardness also means that it can occasionally be shattered. Some consider this useful, since an impact would shatter a tungsten ring, quickly removing it, where precious metals would bend flat and require cutting. Tungsten carbide is roughly 10 times harder than 18
k gold. In addition to its design and high polish, part of its attraction to consumers is its technical nature. Special tools, such as locking pliers, may be required if such a ring must be removed quickly (e.g. due to medical emergency following a hand injury accompanied by swelling).
Other , magnification ×950, material laboratory Tungsten carbide is widely used to make the rotating ball in the tips of
ballpoint pens that disperse ink during writing. English guitarist
Martin Simpson uses a custom-made tungsten carbide
guitar slide, which gives it superior
sustain and volume. Tungsten carbide has been investigated for its potential use as a
catalyst and it has been found to resemble
platinum in its catalysis of the production of water from hydrogen and oxygen at room temperature, the
reduction of
tungsten trioxide by hydrogen in the presence of water, and the
isomerisation of 2,2-dimethylpropane to 2-methylbutane. It has been proposed as a replacement for the
iridium catalyst in
hydrazine-powered
satellite thrusters. A tungsten carbide coating has been utilized on brake discs in high performance automotive applications to improve performance, increase service intervals and reduce brake dust. ==Toxicity==