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time2018/10/17
Rare earth is
the abbreviation of a group of metals, including 17 elements in the periodic
table of chemical elements, such as lanthanum, cerium, and praseodymium. It has
been widely used in many fields such as electronics, petrochemicals, metallurgy
and so on.
The following is a list of the uses of neodymium praseodymium (PrNd), samarium cobalt (SmCo) and dysprosium (Dy).
1. Pr
About 160 years ago, the Swedish Mossander discovered a new element from lanthanum, but it is not a single element. Mossander discovered that the nature of this element is very similar to lanthanum, so he named it "PrNd". "Pr" means "twin" in Greek. About 40 years later, the Austrian Welsbach successfully separated two elements from the "Pr-neodymium", one named "neodymium" and the other named "praseodymium". And the praseodymium element found can be used in glass, ceramics, and magnetic materials.
(1) Praseodymium is widely
used in architectural ceramics and daily-use ceramics. It is mixed with ceramic
glaze to make colored glaze, or it can be used as underglaze pigment alone. which
made pure light-yellow pigment.
(2) Used to
make permanent magnets. Using cheap praseodymium metal instead of pure
neodymium metal to make permanent magnet materials, its oxygen resistance and mechanical
properties are obviously improved, and it can be processed into magnets of
various shapes. It is widely used in various electronic devices and motors.
(3) Used in
petroleum catalytic cracking. The petroleum cracking catalyst is prepared by
adding praseodymium and neodymium enrichment to Y-type zeolite molecular sieve,
which can improve the activity, selectivity, and stability of the catalyst.
China began to use it in industrial in the 1970s, and its consumption continued
to increase.
(4) Pr can also be
used for abrasive polishing. In addition, the use of praseodymium in the field
of optical fiber is becoming more and more extensive.
2. Nd
With the birth
of praseodymium, neodymium also emerged. The advent of neodymium has activated
the rare earth field, played an important role in the rare earth field, and
controlled the rare earth market.
With its
unique position in the rare earth field, neodymium has become a hot spot in the
market for many years. The most use of neodymium is in NdFeB permanent magnet.
The advent of
NdFeB magnets has injected new vitality into the rare earth high-tech field.
NdFeB magnets have high magnetic energy product and are called the "king
of permanent magnets". They are widely used in electronics, machinery, and
other industries with their excellent performance. Neodymium is also used in
non-ferrous metal materials. Adding 1.5 to 2.5% neodymium to magnesium or
aluminum alloy can improve the high temperature performance, air tightness and
corrosion resistance of the alloy, so it’s also widely used as aerospace
materials. In addition, neodymium-doped yttrium aluminum garnet produces
short-wave laser beams, which are widely used in the industry for welding and
cutting thin materials with a thickness of less than 10mm. In medical
treatment, neodymium-doped yttrium aluminum garnet lasers are used instead of
scalpels to remove surgical or disinfect wounds. Neodymium is also used for the
coloring of glass and ceramic materials and additives for rubber products.
3. Sm
In 1879, Bois
Baudler discovered a new rare earth element in the "praseodymium
neodymium" obtained from the niobium and yttrium ore, and named it
samarium after the name of this ore.
Samarium is
light yellow and is the raw material for samarium-cobalt (SmCo) permanent
magnets. SmCo magnets are the first rare-earth magnets to be industrially used.
There are two types of such permanent magnets: SmCo5 series and Sm2Co17 series.
The SmCo5 series were invented in the early 1970s, and the Sm2Co17 series were
invented in the later period of 1970s. Now the mainly demand is the latter one.
The purity of samarium oxide used in SmCo magnets does not need to be too high.
Considering the cost, about 95% purity of products are mainly used. In
addition, samarium oxide is also used in ceramic capacitors and catalysts. In
addition, samarium also has nuclear properties and can be used as a structural
material for atomic energy reactors, shielding materials and control materials,
so that the huge energy generated by nuclear fission can be used safely.
In 1886, the
Frenchman Bois Boudre successfully separated holmium into two elements, one is
still called holmium, and the other is named dysprosium based on the meaning of
"hard to get" from holmium. Dysprosium currently plays an
increasingly important role in many high-tech fields.
The main uses of
Dysprosium are:
(1) Used as an
additive for NdFeB permanent magnets. Adding about 2% to 3% of dysprosium to
this magnet can increase its coercivity. In the past, the demand for dysprosium
was not much, As the demand for magnets increases, it becomes a necessary
additional element, and the ore grade must be around 95% to 99.9%. The demand
of Dy is also increasing rapidly.
(2) Dysprosium
is used as a phosphor activator. Trivalent dysprosium is a promising
single-luminescence center three-primary-color luminescent material active ion,
which is mainly composed of two emission bands, one is yellow light emission,
the other is blue light Emitting, dysprosium-doped luminescent materials can be
used as three primary color phosphors.
(3) Dysprosium
is a necessary raw material for the large magnetostrictive alloy terbium and
dysprosium (Terfenol) alloy, which can realize the precise activities of some
mechanical movements.
(4) Dysprosium
metal can be used as magneto-optical storage material, with high recording
speed and reading sensitivity.
(5) For the
preparation of dysprosium lamps, the working substance used in dysprosium lamps
is dysprosium iodide. This kind of lamp has the advantages of large brightness,
good color, high color temperature, small volume, stable arc, etc., and has
been used in movies and printing Wait for the lighting source.
(6) Due to the
large cross-sectional area of neutron capture, dysprosium is used in the atomic
energy industry to measure neutron energy spectrum or as a neutron absorber.
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