| Identification | More | [Name]
YTTRIUM | [CAS]
7440-65-5 | [Synonyms]
YTTRIUM
YTTRIUM AA SINGLE ELEMENT STANDARD
YTTRIUM, AAS STANDARD SOLUTION
YTTRIUM ATOMIC ABSORPTION STANDARD
YTTRIUM ATOMIC ABSORPTION STANDARD SOLUTION
YTTRIUM ATOMIC SPECTROSCOPY STANDARD
YTTRIUM ICP/DCP STANDARD
YTTRIUM ICP STANDARD
YTTRIUM ICP TORCH OPTIMIZATION STANDARD
YTTRIUM METAL
YTTRIUM METALLO-ORGANIC STANDARD
YTTRIUM, OIL BASED STANDARD SOLUTION
YTTRIUM PLASMA EMISSION SPECTROSCOPY STANDARD
YTTRIUM PLASMA EMISSION STANDARD
YTTRIUM, PLASMA STANDARD SOLUTION
YTTRIUM SINGLE ELEMENT PLASMA STANDARD
YTTRIUM SINGLE ELEMENT STANDARD
YTTRIUM STANDARD
Yitrium
Yttrium-89 | [EINECS(EC#)]
231-174-8 | [Molecular Formula]
Y | [MDL Number]
MFCD00011468 | [Molecular Weight]
88.91 | [MOL File]
7440-65-5.mol |
| Chemical Properties | Back Directory | [Appearance]
Yttrium is a silvery-white to dark-gray, or
black solid or gray powder. Odorless. An element in Group
III-B of the Periodic Table. It is very similar to the rare
earth metals. | [Melting point ]
1522 °C (lit.) | [Boiling point ]
3338 °C (lit.) | [density ]
4.469 g/mL at 25 °C(lit.)
| [Fp ]
470℃ | [storage temp. ]
Flammables area | [solubility ]
reacts with H2O; soluble in dilute acid solutions | [form ]
powder
| [color ]
Gray | [Specific Gravity]
4.47 | [Stability:]
Stable. | [Resistivity]
57 μΩ-cm, 20°C | [Water Solubility ]
Insoluble in water | [Sensitive ]
air sensitive, moisture sensitive | [Merck ]
13,10161 | [Exposure limits]
ACGIH: TWA 2 ppm; STEL 4 ppm
OSHA: TWA 2 ppm(5 mg/m3)
NIOSH: IDLH 25 ppm; TWA 2 ppm(5 mg/m3); STEL 4 ppm(10 mg/m3) | [History]
Yttria, which is an earth containing yttrium,
was discovered by Gadolin in 1794. Ytterby is the site of a
quarry which yielded many unusually minerals containing rare
earths and other elements. This small town, near Stockholm,
bears the honor of giving names to erbium, terbium, and ytterbium
as well as yttrium. In 1843 Mosander showed that yttria
could be resolved into the oxides (or earths) of three elements.
The name yttria was reserved for the most basic one; the others
were named erbia and terbia. Yttrium occurs in nearly all
of the rare-earth minerals. Analysis of lunar rock samples obtained
during the Apollo missions show a relatively high yttrium
content. It is recovered commercially from monazite
sand, which contains about 3%, and from bastnasite, which
contains about 0.2%. Wohler obtained the impure element
in 1828 by reduction of the anhydrous chloride with potassium.
The metal is now produced commercially by reduction
of the fluoride with calcium metal. It can also be prepared by
other techniques. Yttrium has a silver-metallic luster and is
relatively stable in air. Turnings of the metal, however, ignite
in air if their temperature exceeds 400°C, and finely divided
yttrium is very unstable in air. Yttrium oxide is one of the most
important compounds of yttrium and accounts for the largest
use. It is widely used in making YVO4 europium, and Y2O3
europium phosphors to give the red color in color television
tubes. Many hundreds of thousands of pounds are now used
in this application. Yttrium oxide also is used to produce yttrium
iron garnets, which are very effective microwave filters.
Yttrium iron, aluminum, and gadolinium garnets, with formulas
such as Y3Fe5O12 and Y3Al5O12, have interesting magnetic
properties. Yttrium iron garnet is also exceptionally efficient
as both a transmitter and transducer of acoustic energy.
Yttrium aluminum garnet, with a hardness of 8.5, is also finding
use as a gemstone (simulated diamond). Small amounts
of yttrium (0.1 to 0.2%) can be used to reduce the grain size
in chromium, molybdenum, zirconium, and titanium, and to
increase strength of aluminum and magnesium alloys. Alloys
with other useful properties can be obtained by using yttrium
as an additive. The metal can be used as a deoxidizer for vanadium
and other nonferrous metals. The metal has a low cross
section for nuclear capture. Y, one of the isotopes of yttrium,
exists in equilibrium with its parent Sr, a product of atomic
explosions. Yttrium has been considered for use as a nodulizer
for producing nodular cast iron, in which the graphite forms
compact nodules instead of the usual flakes. Such iron has increased
ductility. Yttrium is also finding application in laser
systems and as a catalyst for ethylene polymerization. It also
has potential use in ceramic and glass formulas, as the oxide
has a high melting point and imparts shock resistance and low
expansion characteristics to glass. Natural yttrium contains but one isotope, Y. Forty-three other unstable isotopes and
isomers have been characterized. Yttrium metal of 99.9% purity
is commercially available at a cost of about $5/g. | [CAS DataBase Reference]
7440-65-5(CAS DataBase Reference) | [EPA Substance Registry System]
Yttrium (7440-65-5) |
| Safety Data | Back Directory | [Hazard Codes ]
C,Xi,Xn,F | [Risk Statements ]
R34:Causes burns.
R36/38:Irritating to eyes and skin .
R20/21/22:Harmful by inhalation, in contact with skin and if swallowed . | [Safety Statements ]
S26:In case of contact with eyes, rinse immediately with plenty of water and seek medical advice .
S36/37/39:Wear suitable protective clothing, gloves and eye/face protection .
S45:In case of accident or if you feel unwell, seek medical advice immediately (show label where possible) .
S33:Take precautionary measures against static discharges .
S27:Take off immediately all contaminated clothing .
S16:Keep away from sources of ignition-No smoking . | [RIDADR ]
UN 3264 8/PG 3
| [WGK Germany ]
3
| [RTECS ]
ZG2980000
| [F ]
1-8-10 | [TSCA ]
Yes | [HazardClass ]
8 | [PackingGroup ]
III | [HS Code ]
28053090 | [Safety Profile]
It may have an
anticoagulant effect on the blood.
Flammable in the form of dust when reacted
with air, halogens. | [Hazardous Substances Data]
7440-65-5(Hazardous Substances Data) | [IDLA]
500 mg Y/m3 |
| Hazard Information | Back Directory | [General Description]
Soft silvery-white metal in bulk. Dark-gray to black odorless powder. Mp: 1509°C; bp 2927°C. Density: 4.47 g cm-3 at 20°C. May irritate the respiratory tract if inhaled as a powder. May irritate the digestive tract if swallowed. Vapors may cause dizziness or suffocation. | [Reactivity Profile]
YTTRIUM in bulk is stable in air due to the formation of oxide films. Powder or dust is light-sensitive and air-sensitive and flammable in the air and (Hazardous Chemicals Desk Reference, p. 861(1987)). Reacts with water to form gaseous hydrogen (H2). Reacts with strong oxidizing agents, strong acids, strong bases, and halogens. The products of these reactions are irritating and toxic. | [Potential Exposure]
Yttrium is used in iron and other
alloys, in incandescent gas mantles, and as a deoxidizer for
metals. Yttrium metal has a low cross section for neutron
capture and is very stable at high temperatures. Further, it
is very inert toward liquid uranium and many liquid uranium
alloys. Thus, it may well have applications in nuclear
power generation. The metal is usually prepared by reduction
of the halide with an active metal, such as calcium. To
identify and analyze this element, X-ray fluorescence spectroscopy
is commonly employed. | [First aid]
If this chemical gets into the eyes, remove any
contact lenses at once and irrigate immediately for at least
15 minutes, occasionally lifting upper and lower lids.
Seek medical attention immediately. If this chemical contacts
the skin, remove contaminated clothing and wash
immediately with soap and water. Seek medical attention
immediately. If this chemical has been inhaled, remove
from exposure, begin rescue breathing (using universal
precautions, including resuscitation mask) if breathing has
stopped and CPR if heart action has stopped. Transfer
promptly to a medical facility. When this chemical
has been swallowed, get medical attention. Give large
quantities of water and induce vomiting. Do not make an
unconscious person vomit. | [Shipping]
UN3089 Metal powders, flammable, n.o.s.,
Hazard Class: 4.1; Labels: 4.1-Flammable solid. UN3178
Flammable solids, inorganic, n.o.s., Hazard Class: 4.1;
Labels: 4.1-Flammable solid. | [Incompatibilities]
Flammable in the form of dust; may
form explosive mixture with air. A strong reducing agent;
reacts violently with oxidizers (chlorates, nitrates, peroxides,
permanganates, perchlorates, chlorine, bromine, fluorine,
etc.); contact may cause fires or explosions. Keep
away from alkaline materials, strong bases, strong acids,
oxoacids, epoxides, halogens. Yttrium nitrate is a combustible
material. | [Chemical Properties]
Dark-gray metal. Soluble in dilute acids and potassium
hydroxide solution; decomposeswater. Known only
in the tripositive state. Low neutron capture cross
section. | [Chemical Properties]
Yttrium is a silvery-white to dark-gray, or
black solid or gray powder. Odorless. An element in Group
III-B of the Periodic Table. It is very similar to the rare
earth metals. | [Waste Disposal]
Recovery is indicated wherever
possible. Specifically, processes are available for
yttrium oxysulfide recovery from color television tube
manufacture. | [Physical properties]
Yttrium is always found with the rare-earth elements, and in some ways it resembles them.Although it is sometimes classified as a rare-earth element, it is listed in the periodic table asthe first element in the second row (period 5) of the transition metals. It is thus also classifiedas the lightest in atomic weight of all the rare-earths. (Note: Yttrium is located in the periodictable just above the element lanthanum (group 3), which begins the lanthanide rare-earthseries.Yttrium dissolves in weak acids and also dissolves in strong alkalis such as potassiumhydroxide. It will also decompose in water.Yttrium’s melting point is 1,522°C, its boiling point is 5,338°C, and its density is 4.469g/cm3. | [Isotopes]
There are 50 isotopes of Yttrium. Only one is stable (Y-89), and it constitutes100% of the element’s natural existence on Earth. The other isotopes range from Y-77to Y-108 and are all produced artificially in nuclear reactions. The radioactive isotopeshave half-lives ranging from 105 nanoseconds to 106.65 days. | [Origin of Name]
Yttrium was originally found with other elements in a mineral called
gadolinite that was discovered in a mine near the Swedish the town of Ytterby. | [Occurrence]
Yttrium is the 27th most abundant element found on Earth, so it is not exactly correct tothink of it as “rare”—rather just difficult to find and extract from all the other similar elementsfound in its minerals.The mineral gadolinite that was discovered in a quarry near Ytterby, Sweden, was analyzedas (Ce,La,Nd,Y)2FeBe2Si2O10. Today most yttrium is recovered from the ores of the mineralmonazite, which is a dark, sandy mixture of elements [(Ce,La,Th,Nd,Y)PO4] and containsabout 50% rare-earths, including about 3% yttrium. The yttrium is separated from the otherrare-earths first by magnetic and flotation processes, which are followed by an iron-exchangedisplacement process. Yttrium’s ions are combined with fluorine ions that are then reduced byusing calcium metal that yields yttrium metal (3Ca + 2YF3 → 2Y + 3CaF2). This reductionprocess produces high-purity yttrium that can be formed into ingots, crystals, sponge, powder,and wires. | [Characteristics]
Yttrium (39Y) is often confused with another element of the lanthanide series of rareEarths—Ytterbium (70Yb). Also confusing is the fact that the rare-earth elements terbiumand erbium were found in the same minerals in the same quarry in Sweden. Yttrium rankssecond in abundance of all 16 rare-earth, and Ytterbium ranks 10th. Yttrium is a dark silverygray lightweight metal that, in the form of powder or shavings, will ignite spontaneously.Therefore, it is considered a moderately active rare-earth metal. | [Definition]
A silvery metallic element
belonging to the second transition series.
It is found in almost every lanthanoid
mineral, particularly monazite. Yttrium is
used in various alloys, in yttrium–aluminum
garnets used in the electronics industry
and as gemstones, as a catalyst, and
in superconductors. A mixture of yttrium
and europium oxides is widely used as the
red phosphor on television screens.
Symbol: Y; m.p. 1522°C; b.p. 3338°C;
r.d. 4.469 (20°C); p.n. 39; r.a.m.
88.90585. | [Definition]
yttrium: Symbol Y. A silvery-greymetallic element belonging to group3 (formerly IIIA) of the periodic table;a.n. 39; r.a.m. 88.905; r.d. 4.469(20°C); m.p. 1522°C; b.p. 3338°C. Itoccurs in uranium ores and in lanthanoidores, from which it can beextracted by an ion exchangeprocess. The natural isotope is yttrium–89, and there are 14 known artificialisotopes. The metal is used insuperconducting alloys and in alloysfor strong permanent magnets (inboth cases, with cobalt). The oxide(Y2O3) is used in colour-televisionphosphors, neodymium-doped lasers,and microwave components. Chemicallyit resembles the lanthanoids,forming ionic compounds containingY3+ ions. The metal is stable in airbelow 400°C. It was discovered in1828 by Friedrich W?hler. | [Hazard]
As a powder or in fine particles, yttrium is flammable and may spontaneously ignite inmoist air. Some of its compounds, particularly those used in the semiconductor and electricalindustries, are very toxic if inhaled or ingested and should only be used under proper conditions. | [Health Hazard]
Yttrium compounds cause pulmonary
irritation in animals.
No effects in humans have been reported. | [Flammability and Explosibility]
Flammable |
| Questions And Answer | Back Directory | [Description]
The element was discovered in 1794 by the Swedish chemist Gadolin. He named it after the small town Ytterby in Sweden where the mineral containing yttria was found. Mosander in 1843 determined that the yttria consisted of three oxides: yttria, erbia, and terbia. Yttrium occurs in all rare earths. It is recovered commercially from monazite sand, which contains about 3% yttrium. It also is found in bastnasite in smaller amounts of about 0.2%. Abundance of yttrium in earth’s crust is estimated to be 33 mg/kg. The metal has been detected in moon rocks.
Yttrium alloys have many applications. The metal doped with rare earths such as europium is used as phosphor for color television receivers. When added to iron, chromium, vanadium, niobium, and other metals it enhances resistance of these metals and their alloys to high temperature oxidation and recrystallization. It is a deoxidizer for vanadium and other nonferrous metals. Yttrium-aluminum garnets are used in lasers and in jewelery gemstones. Yttrium-iron garnets are used as transmitters and as transducers of acoustic energy.
 | [Uses]
Yttrium has the highest thermo-dynamic affinity for oxygen of any element, this characteristic is the basis for many of its applications. While not part of the rare earth series, it resembles the heavy rare earths which are sometimes referred to as the Yttrics for this reason. Another unique characteristic derives from its ability to form crystals with useful properties. Some of the many applications of Yttrium include in ceramics for crucibles for molten reactive metals, in florescent lighting phosphors, computer displays and automotive fuel consumption sensors. Yttria stabilized Zirconium Oxide are used in high temperature applications, such as in thermal plasma sprays to protect aerospace high temperature surfaces.
Yttrium is also used for producing a variety of synthetic garnets with different applications such as microwave filters, acoustic energy transmitters and transducers. Yttrium can be used to produce powerful pulsed lasers and superconductors. In biomedical field, yttrium is used in cancer treatment drugs, rheumatoid arthritis medicines and surgical supplies.
Yttrium Metal is widely applied in making speciality alloys, it increase the strengths of alloys of metals such as Chromium, Aluminium, and Magnesium. Yttrium is one of the elements used to make the red color in CRT televisions. As a metal, it is used on the electrodes of some high-performance spark plugs. Yttrium is also used in the manufacturing of gas mantles for propane lanterns as a replacement for Thorium. It is also used to increase the strength of Aluminium and Magnesium alloys. The addition of Yttrium to alloys generally improves workability, adds resistance to high-temperature recrystallization and significantly enhances resistance to high-temperature oxidation. Yttrium Metal can be further processed to various shapes of ingots, pieces, wires, foils, slabs, rods, discs and powder.
| [Preparation]
Yttrium is recovered commercially from its two principal sources, xenotime and monazite. Ore is opened by digestion with hot sulfuric acid. Insoluble residues are filtered out and leachate solution containing yttrium and other rare-earths is loaded onto cation exchange resin beds for separation. Fractions are eluted with ethylenediamine tetraacetic acid (EDTA) buffered with ammonia at varying temperatures. Also, many other chelates are highly effective in eluting rare earths. Such temperature adjustments of resin beds enhance separation efficiency, particularly for separating yttrium. Separated rate earths including yttrium are converted into insoluble oxalates that precipitate when treated with oxalic acid or sodium oxalate.
Yttrium oxalate is then ignited to its oxide, Y2O3. The oxide is heated at 750°C in a stream of anhydrous hydrogen fluoride to yield yttrium fluoride, YF3. Alternatively, the oxide is mixed with ammonium hydrogen fluoride NH4HF2 and heated at 400°C in a stream of dry air or helium. Yttrium metal may be produced from its fluoride either by metallothermic reduction or electrolysis. The more common metallothermic reduction involves reducing the fluoride with redistilled calcium in 10% excess over the stoichiometric amounts at elevated temperatures:
2YF3 + 3Ca → 2Y + 3CaF2
In the electrolytic process, a fused bath of yttrium fluoride and lithium fluoride is heated to nearly 1,700°C and electrolyzed. The electrolysis is done in a graphite crucible using molybdenum cathodes at which yttrium is produced as molten metal.
Yttrium is purified by distillation at high temperatures under vacuum.
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