| Identification | Back Directory | [Name]
Zeolite | [CAS]
1318-02-1 | [Synonyms]
mz3
xh9
SGK
sk40
t134
sgk1
grz1
cs100
na100
nc300
je15p
lm104
lm108
lm204
ssz37
z3125
zb200
zb400
xh600
y-sk40
zeokar
tsz300
ionsiv
kkh100
cs100s
zeolum
zeomic
calsit
ZSM-35
zeosorb
P 820 A
lms9611
ZEOLITE
zeokar2
zeokar3
zeofill
zeolith
Permuit
Zeolites
tomix550
permutit
zeolumsa
ZEOLITHA
coratylg
4A powder
harmony70
radiolite
siltonb50
spansorbc
ZEOLITE A
sylosiv100
ukazilx100
zeolith225
zeolite24p
siltonlp75
ZEOLITEK-G
Gobbinsite
ZEOLITEZK-5
ZEOLITEMS4A
ezazeolitea
siltoncpt30
Epistilbite
wessalith80
zeolite1014
zeolite1424
aidplusocma
abscents3000
microzeokan8
siltonb-mz260
zeostarca100p
zeostarca110p
ZEOLITEFIBERS
zeolithtaylor
bactekillermb
baylithac6184
agrolithe15/25
cs100(zeolite)
siliporitenk10
lm208(zeolite)
Aluminosilicate
MAN-MADEZEOLITES
kc-perlkatord10e
Zeoliteparticles
MOLECULAR SIEVES
ZEOLITE,TECHNICAL
Zeolite Y, sodiuM
neuronizeonsp3000
Zeoliteartificial
Molecular sieve A
bactekillerbm101a
bactekillerbm102a
bactekillerbm501a
SYNTHETICZEOLITE4A
MOLECULAR SIEVE 4A
MOLECULAR SIEVE 5A
MOLECULAR SIEVES 5A
Zeolite Y, aMMoniuM
MOLECULAR SIEVES 3A
MOLECULAR SIEVES 4A
Zeolite Y, hydrogen
Zeolite ^b, aMMoniuM
Zeolite ^b, hydrogen
MOLECULAR SIEVES 13X
Zeolites size ≤10.0um
Zsm-5 molecular sieve
Zeolite CAS 1318-02-1
Titannium Silicalite-1
Molecular sieve 1.0 nm
Molecular sieve 0.5 nm
Molecular sieve 0.4 nm
Zeolite beta, ammonium
Zeolite beta, hydrogen
SODIUM ALUMINOSILICATE
Zeolite ZSM-5, aMMoniuM
detergent grade zeolite
SODIUM ALUMINUM SILICATE
MOLECULAR SIEVES, AW-300
ALUMINUM SODIUM SILICATE
MOLECULAR SIEVE, TYPE 5A
MOLECULAR SIEVE, TYPE 3A
MOLECULAR SIEVE, TYPE 4A
MOLECULAR SIEVES, TYPE 3A
MOLECULAR SIEVES, TYPE 5A
MOLECULAR SIEVE, TYPE 13X
SODIUM ALUMINIUM SILICATE
Zeolite Mordenite, sodiuM
Aluminosilicates,zeolites
MOLECULAR SIEVES, TYPE 4 A
MOLECULAR SEIVES, TYPE 4 A
MOLECULAR SIEVE UOP TYPE 3A
MOLECULAR SIEVES, GRADE 564
MOLECULAR SIEVES,(LINDE 3A)
MOLECULAR SIEVES,(LINDE 4A)
MOLECULAR SIEVES,(LINDE 5A)
MOLECULAR SIEVES(R) 13X 1/8
HYDRANAL(R)-MOLECULAR SIEVE
Zeolite Mordenite, hydrogen
Zeolite Mordenite, aMMoniuM
MOLECULAR SIEVES, GRADE 514
Zeolite ISO 9001:2015 REACH
Titannium Silicalite-1(TS-1)
Zeolite ferrierite, aMMoniuM
MOLECULAR SIEVES,(LINDE 13X)
MOLECULAR SIEVE 0.3 NM POWDER
Alkali aluminosilicate hydrate
Crystalstructuretypes,zeolites
Zeolite, Synthetic, F-9, Powder
Aluminosilicate, mesostructured
ALUMINUM CALCIUM SODIUM SILICATE
ZEOLITHE SMALL BALLS( = 1 TO 4MM)
ANTI-SGK antibody produced in mouse
Serine/threonine-protein kinase Sgk1
MOLECULAR SIEVE 1.0 NM BEADS CA. 2 MM
MOLECULAR SIEVE 0.4 NM BEADS CA. 2 MM
MOLECULAR SIEVE 0.5 NM BEADS CA. 2 MM
MOLECULAR SIEVE 0.3 NM BEADS CA. 2 MM
MOLECULAR SIEVE, TYPE Y, AMMONIUM ION
ZEOLITE, SILVER-EXCHANGED 1.6MM PELLETS
Serum/glucocorticoid-regulated kinase 1
ALUMINOSILICATE, LARGE PORE, AI-MSU-H T&
MOLECULAR SIEVE, TYPE 4A, 4-8 MESH BEADS
MOLECULAR SIEVE, TYPE 3A, 4-8 MESH BEADS
MOLECULAR SIEVE, TYPE 3A, 8-12 MESH BEADS
MOLECULAR SIEVE, TYPE 5A, 8-12 MESH BEADS
MOLECULAR SIEVE, TYPE 4A, 8-12 MESH BEADS
MOLECULAR SIEVE, TYPE 13X, 8-12 MESH BEADS
CRYSTALLINE SODIUM POTASSIUM ALUMINOSILICATE
Calcium sodium potassium alminosilicate hydrate
Anti-SGK, C-Terminal antibody produced in rabbit
Aluminosilicate, mesostructured MCM-41 (hexagonal)
Zeolite, Synthetic, F-9, Shot,0.50-1.18mm(14-30mesh)
Zeolite, Synthetic, A-3, Shot, 0.50-1.18mm(14-30mesh)
Zeolite, Synthetic, A-3, Powder, through 75um(200mesh)
Zeolite, Synthetic, A-4, Powder, through 75um(200mesh)
Zeolite, Synthetic, F-9, Beads, 2.36 - 4.75mm(4 - 8mesh)
Zeolite, Synthetic, A-4, Beads, 2.36 - 4.785mm(4 - 8mesh)
Zeolite, Synthetic, A-4, Shot, 0.50 - 1.18mm(14 - 30mesh)
Zeolite, Synthetic, A-3, Beads, 2.36 - 4.75mm (4 - 8mesh)
Zeolite, Synthetic, A-5, Beads, 2.36 - 4.75mm (4 - 8mesh)
Zeolite, Synthetic, F-9, Beads, 1.40 - 2.36mm (8 - 12mesh)
Zeolite, Synthetic, A-4, Beads, 1.40 - 2.36mm (8 - 12mesh)
Zeolite, Synthetic, A-3, Beads, 1.40 - 2.36mm (8 - 12mesh)
Molecular sieves, AW-500, 3-4mm (0.12-0.16in) dia. pellets
Kalziniertes Kieselsure, Aluminium-Natriumsalz (zeolithisch)
Zeolites other than erionite (clinoptilolite, phillipsite,mordenite, non-fibrous Japanese zeolite, synthetic zeolites) | [EINECS(EC#)]
215-684-8 | [Molecular Formula]
AlNaO6Si2 | [MDL Number]
MFCD00131613 | [MOL File]
1318-02-1.mol | [Molecular Weight]
202.14 |
| Chemical Properties | Back Directory | [Occurrence]
Aluminosilicates are obtained directly from the aluminosilicate rocks or as synthetic materials. These oxides have the general formula: mAl2O3 . nSiO, e.g., andalusite, sillimanite, disthene, kaolinite, topaz, and mullite. Natural aluminosilicate powders used in investment casting are supplied with various Al2O3 content, such as 42–47% (e.g., Molochite) and 60% (e.g., Remasil, Mulgrain), and with gradation in the range of 325# 120#. The higher the content of Al2O3 in the powder, the higher its resistance to temperature. Most common contaminants in aluminosilicate powder are: Fe2O3, TiO2, and ZrO2, while the content of CaO, MgO, K2O, P2O5, and Cr2O3 is very small. An important advantage of aluminosilicate powders is their availability and low price of about 0.5 €/kg.
Mullite 3Al2O3 . 2SiO2 is a mineral that is rarely found in nature (known deposits on the Isle of Mull, Scotland). For industrial purposes, synthetic mullite is used almost exclusively (sintered or melted) with particle sizes up to: 0.07, 0.12, 0.25–0.5, 0.5–1.0 mm and of white color. The raw material is milled and fractionated for a suitable grain size matrix of the ceramic powders and stucco. The melting point of mullite is 1810 ℃ and density is 3.05 g/cm3, which does not depend on the temperature. It is characterized by high resistance to creep and thermal shock due to a low coefficient of thermal expansion and a low thermal conductivity. Synthetic mullite is characterized by a high chemical purity—total content of impurities does not exceed 0.5 wt%. The price is high (about 2.5 V/kg), thus it is used for ceramic molds for casting turbine blades with a DS or SC microstructure. | [Melting point ]
>1600°C | [density ]
1.9~2.3g/cm3 | [storage temp. ]
Store at RT. | [form ]
powder
| [pka]
10.348[at 20 ℃] | [color ]
White | [Odor]
wh., odorless powd. | [PH]
8-11 (H2O) | [Water Solubility ]
Insoluble in water. | [Sensitive ]
Hygroscopic | [Exposure limits]
ACGIH: TWA 10 mg/m3
OSHA: TWA 15 mg/m3
NIOSH: IDLH 5000 mg/m3; TWA 2.4 mg/m3; TWA 0.3 mg/m3 | [IARC]
3 (Vol. 68) 1997 | [EPA Substance Registry System]
Zeolites(1318-02-1) |
| Hazard Information | Back Directory | [Uses]
Catalyst in refining petroleum, to soften water, and in detergents. The sodium compound, Na 12 [(Al O 2 ) 12 (Si O 2 ) 12 ] x H 2 O, is typical. | [Definition]
A natural hydrated silicate of aluminum and either sodium or calcium or both, of the type Na2O?Al2O3?xSiO2?xH2O. Both natural and artificial zeolites are used extensively for water softening, as detergent builders, and cracking catalysts. For the former purpose the sodium or potassium compounds are required, since their usefulness depends on the cationic exchange of the sodium of the zeolite for the calcium or magnesium of hard water. When the zeolite has become saturated with calcium or magnesium ion it is flooded with strong salt solution, a reverse exchange of cations takes place and the material is regenerated. The natural zeolites are analcite, chabazite, heulandite, natrolite, stilbite, and thomsonite. Synthetic zeolites are made either by a gel process (sodium silicate and alumina) or by a clay process (kaolin), which forms a matrix to which the zeolite is added. These processes are quite complex, involving substitution of various rare-earth oxides. The effectiveness of zeolites depends on their pore size, which may be as small as 4–5 A? . Other applications of zeolites are as adsorbents, desiccants, and in solar collectors, where they function as both heating and cooling agent.
| [Agricultural Uses]
Zeolite is a generic term used for any of the large group of
minerals, comprising hydrated aluminosilicates of Na,
K, Ca and Ba. These can readily be dehydrated and rehydrated,
and find application as molecular sieves and
cation exchangers.
Natural zeolites are analcite, chabazite, heulandite,
natrolite, stilbite and thomsonite. Artificial zeolites are
made in many forms (ranging from gelatinous, to porous,
to sand like varieties) and are used as gas absorbents,
drying agents, catalysts and water softeners. Zeolites
include a diverse group of compounds of sulphonated
organic or basic resins.
Zeolites are low-temperature and low-pressure
minerals occurring commonly in basalts, denitrification
products and as alteration products of feldspars and
nepheline.
Zeolites are also present in volcanic ash clay
minerals. When applied to land or similar fields, they
have a strong capacity for holding ammonium ions which
reduce the leaching of the nitrate ions.
Zeolites are called molecular sieves because of their
use in separating mixtures by selective absorption. They
are also used in sorption pumps for vacuum systems
(e.g., In permutil), ion exchange systems (for water
softening) and as catalysts. | [Preparation]
Zeolite family is a well-known class of alkali aluminosilicates found in nature that
has been used as ion exchange minerals in water softening.They are hydrated systems and
give up part of their water molecules quite readily at modest temperatures but reabsorb the
moisture when exposed to moist air. A similar alkali aluminosilicate is prepared artificially
and has the empirical composition 2M2O·Al203·3SiO2·3H20; these compositions are
called "permutites" and are usually prepared with sodium as the alkali metal by adding
aluminum sulphate to soluble silicate solutions or by combining sodium aluminate with
sodium silicate. In the presence of calcium, iron and other cations, the sodium ion is displaced
by the heavier metal ions and the permutites can thus be used to remove these metal
ions from solution—for example, to remove hardness from hard water, or to "soften"
water. The permutite or artificial zeolite can be regenerated by treating with strong sodium
chloride solution, thus replacing the calcium or iron by sodium. More recently, the use of
synthetic zeolites as "molecular sieves" has become quite important in the separation
of organic compounds or as catalysts in petroleum refining. In these alkali aluminosilicates,
the pore size is determined by the alkali metal cation used. | [General Description]
Aluminosilicate, mesostructured (Al-MSU) is an analog of hexagonal MCM-41 that can be assembled by zeolite seeds. It is hydrothermally stable and strongly acidic, which makes it useful in catalysis and adsorption technology. | [Flammability and Explosibility]
Notclassified |
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