Cas no 12141-46-7 (ALUMINUM SILICATE)

Aluminum silicate is a versatile inorganic compound composed of aluminum, silicon, and oxygen, commonly occurring in nature as minerals like kaolinite or synthetically produced for industrial applications. It exhibits high thermal stability, chemical inertness, and excellent mechanical properties, making it suitable for use as a filler, adsorbent, or reinforcing agent. Its low thermal conductivity and resistance to acids and alkalis enhance its utility in ceramics, coatings, and refractory materials. The fine particle size and high surface area of synthetic variants improve performance in catalysts and filtration media. Aluminum silicate is also valued for its low toxicity and environmental compatibility in diverse applications.
ALUMINUM SILICATE structure
ALUMINUM SILICATE structure
Product Name:ALUMINUM SILICATE
CAS No:12141-46-7
MF:Al2O5Si
MW:162.045578956604
CID:86675
PubChem ID:9942228
Update Time:2025-10-30

ALUMINUM SILICATE Chemical and Physical Properties

Names and Identifiers

    • ALUMINUM SILICATE
    • PYRAX ABB
    • KAOLINITE
    • ANDALUSITE
    • SILLIMANITE
    • FIBERFRAX(R)
    • PYROPHYLLITE
    • ALUMIUM SILICATE
    • ALUMINIUM SILICATE
    • Aluinum silicate
    • Aluminumoxidesilicate
    • ALUMINUM SILICON, ALLOY
    • dialuminum,oxygen(2-),silicon(4+)
    • Aluminum oxide silicate (Al2O(SiO4))
    • Aluminum silicate,natural
    • Aluminum silicate,natural [JAN]
    • Aluminum silicate,synthetic
    • Aluminum silicate,synthetic [JAN]
    • EINECS 235-253-8
    • T1FAD4SS2M
    • UNII-T1FAD4SS2M
    • Aluminium silicate*
    • aluminum oxide silicate
    • AKOS015911071
    • GRZ 1
    • Aluminosilicate
    • Zeofill
    • Neuronizeon SP 3000
    • Aluminosilicate, mesostructured, Al-MSU-F (cellular foam)
    • Zeolites other than erionite
    • Aluminosilicates, zeolites
    • J-007259
    • Coratyl G
    • ZB 200
    • Non-fibrous Japanese zeolite
    • 12141-46-7
    • Silton CPT 30
    • UNII-NT5NN5KL16
    • Baylith AC 6184
    • LMS 9611
    • Ionsiv
    • CS 100S
    • Montmorillonite (Aluminum Pillared Clay)
    • NT5NN5KL16
    • TSZ 300
    • Bactekiller BM 101A
    • Mullite (lattice spacing, other parameters), Reference Material
    • Silton LP 75
    • Catalyst (Aluminum pillared clay)
    • Permutit
    • CS 100
    • Mycozel
    • Aluminosilicate, mesostructured, MCM-41 (hexagonal)
    • ZEOLITES
    • Zeolith
    • MZ 3
    • 1318-02-1
    • Ukazil X 100
    • CS 100 (zeolite)
    • Zeokar 2
    • Radiolite
    • Zeosorb
    • Harmony 70
    • Zeolites size </=10.0um
    • Siliporite NK 10
    • LM 204
    • SGK 1
    • Zeolite 1014
    • Crystal structure types, zeolites
    • Y-SK 40
    • Pumice 8849 1/2
    • Silton B-MZ 260
    • Bactekiller BM 102A
    • Wessalith 80
    • Aluminum silicate N-hydrate
    • SK 40
    • Zeokar
    • Zeolite, clinoptilolite
    • Calsit
    • Zeolite, phillipsite
    • Bactekiller MB
    • KKh 100
    • Bactekiller BM 501A
    • Zeolites, synthetic
    • Zeokar 3
    • KC-Perlkator D 10E
    • SSZ 37
    • Synthetic zeolites
    • Zeomic
    • FT-0697552
    • Abscents 3000
    • Zeolite particles
    • Montmorillonite (Aluminum Pillared Clay), surface area 250 m2/g
    • Agrolithe 15/25
    • NA 100
    • Zeolith Taylor
    • JE 15P
    • Zeolite 24P
    • NC 300
    • Silton B 50
    • LM 208 (zeolite)
    • EINECS 215-283-8
    • Zeolite, mordenite
    • Zeolum SA
    • Microzeokan 8
    • Zeolite
    • Zeolite 1424
    • Tomix 550
    • Zeolith 225
    • Zeostar CA 110P
    • Zeostar CA 100P
    • LM 104
    • CCRIS 6604
    • Zeolum
    • LM 108
    • XH 600
    • Z 3125
    • Aid Plus OCMA
    • Silica-alumina catalyst support, grade 135
    • Spansorb C
    • ZB 400
    • Sylosiv 100
    • Kaolinite, natural
    • Inchi: 1S/2Al.O2Si.3O/c;;1-3-2;;;
    • InChI Key: HNPSIPDUKPIQMN-UHFFFAOYSA-N
    • SMILES: [Si](=O)=O.[Al](=O)O[Al]=O

Computed Properties

  • Exact Mass: 163.93000
  • Monoisotopic Mass: 700.018862
  • Isotope Atom Count: 0
  • Hydrogen Bond Donor Count: 0
  • Hydrogen Bond Acceptor Count: 5
  • Heavy Atom Count: 8
  • Rotatable Bond Count: 0
  • Complexity: 0
  • Covalently-Bonded Unit Count: 8
  • Defined Atom Stereocenter Count: 0
  • Undefined Atom Stereocenter Count : 0
  • Defined Bond Stereocenter Count: 0
  • Undefined Bond Stereocenter Count: 0
  • Topological Polar Surface Area: 307
  • Surface Charge: 0
  • Tautomer Count: nothing
  • XLogP3: nothing

Experimental Properties

  • Color/Form: Amorphous ultrafine white loose powder. It has excellent suspension and pure white appearance.
  • Density: 3.247
  • Boiling Point: °Cat760mmHg
  • Flash Point: °C
  • PSA: 77.51000
  • LogP: -0.69940
  • Solubility: Insoluble in water and acid.

ALUMINUM SILICATE Security Information

  • WGK Germany:3
  • Hazard Category Code: 36/37/38
  • Safety Instruction: S26; S36; S7/9
  • RTECS:ZG6800000
  • Hazardous Material Identification: Xn
  • Risk Phrases:R36/37/38

ALUMINUM SILICATE Customs Data

  • HS CODE:2839900090
  • Customs Data:

    China Customs Code:

    2839900090

ALUMINUM SILICATE Pricemore >>

Related Categories No. Product Name Cas No. Purity Specification Price update time Inquiry
Aaron
AR01DP2O-25g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
25g
$24.00 2023-12-16
Aaron
AR01DP2O-100g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
100g
$38.00 2023-12-16
Aaron
AR01DP2O-500g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
500g
$79.00 2023-12-16
1PlusChem
1P01DOUC-25g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
25g
$31.00 2023-12-25
1PlusChem
1P01DOUC-100g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
100g
$39.00 2023-12-25
1PlusChem
1P01DOUC-500g
Aluminum oxide silicate (Al2O(SiO4))
12141-46-7 99%
500g
$63.00 2023-12-25

ALUMINUM SILICATE Suppliers

Tiancheng Chemical (Jiangsu) Co., Ltd
Gold Member
Audited Supplier Audited Supplier
(CAS:12141-46-7)Alumina Silicate
Order Number:LE7002
Stock Status:in Stock
Quantity:25KG,200KG,1000KG
Purity:99%
Pricing Information Last Updated:Friday, 20 June 2025 11:50
Price ($):discuss personally

Additional information on ALUMINUM SILICATE

Aluminum Silicate: A Comprehensive Overview

Aluminum Silicate, also known as CAS No. 12141-46-7, is a versatile inorganic compound with a wide range of applications across various industries. This compound is primarily composed of aluminum and silicon, two of the most abundant elements on Earth, making it a sustainable and cost-effective material for numerous industrial processes. In recent years, advancements in materials science have led to new insights into the properties and potential uses of aluminum silicate, further solidifying its importance in modern technology and industry.

The chemical structure of aluminum silicate is characterized by its unique arrangement of aluminum and silicon atoms within a silicate lattice. This structure contributes to its high thermal stability, mechanical strength, and resistance to chemical degradation. Recent studies have explored the potential of aluminum silicate as a filler material in advanced composites, where its ability to enhance mechanical properties without significantly increasing the weight of the material has been widely recognized. Researchers have also investigated its role in improving the thermal conductivity of polymers, which has implications for the development of more efficient electronic devices and thermal management systems.

In terms of industrial applications, aluminum silicate is commonly used as an additive in ceramics, refractories, and construction materials. Its high melting point and excellent thermal insulation properties make it ideal for use in high-temperature environments. For instance, in the production of refractory bricks, the addition of aluminum silicate significantly improves the durability and heat resistance of the final product. This has been particularly beneficial in industries such as steelmaking and glass production, where exposure to extreme temperatures is a common challenge.

Beyond traditional applications, recent research has highlighted the potential of aluminum silicate in emerging fields such as environmental remediation and energy storage. In environmental science, researchers have explored the use of aluminum silicate-based materials for adsorbing heavy metals from contaminated water. The compound's ability to form stable complexes with metal ions makes it a promising candidate for cost-effective water treatment solutions. Additionally, studies have shown that aluminum silicate-based composites can be used as electrodes in supercapacitors, offering improved energy storage capabilities compared to conventional materials.

The production process of aluminum silicate typically involves the reaction of aluminum oxide with silica under high-temperature conditions. Recent advancements in manufacturing techniques have focused on optimizing this process to reduce energy consumption and minimize waste generation. For example, researchers have developed novel synthesis methods that utilize microwave heating or plasma technology to achieve faster reaction times and higher product purity. These innovations not only enhance the efficiency of production but also contribute to a more sustainable industrial footprint.

In conclusion, aluminum silicate, with its unique chemical properties and wide-ranging applications, continues to play a pivotal role in various industries. As research progresses, new opportunities for leveraging this compound's potential are emerging, particularly in areas such as advanced materials development and environmental sustainability. With ongoing advancements in synthesis techniques and application engineering, CAS No. 12141-46-7, or aluminum silicate, is poised to remain a key material in shaping future technologies.

Recommended suppliers
Tiancheng Chemical (Jiangsu) Co., Ltd
(CAS:12141-46-7)Alumina Silicate
LE7002
Purity:99%
Quantity:25KG,200KG,1000KG
Price ($):Inquiry
Email