Physical & Chemical Properities "1. Cost reduction;
2. Weight reduction;
3. Non-combustible;
4. Thermal insulation;
5. Sound absorption;
6. Good Fluidity;
7. High thermal stability;
8. Low density;
9. High particle strength
10. Low water absorption
11. Stable property "
Application 1. Spherical particle, surface vitrified, good fluidity while mixing, good workability, mixed evenly shortly, then reduce the aggregate broke when dry-wet mixing, good thermal property and mechanical property.
2. Can be used in a wide variety of paint and coating systems to reduce VOCs, improve flow and leveling characteristics, and enhance chemical and wear resistance properties.
3. Low water absorption, easily controlled in mortar, low shrinkage, no hollowing and cracking, stable thermal property and mechanical property, increase the mortar service life.
4. Can used in boards and panels for both commercial and residential interiors.The boards are comfortable to handle and easy to cut and fasten like wood.
Physical & Chemical Properities "1. Cost reduction; 2. Weight reduction; 3. Non-combustible; 4. Thermal insulation; 5. Sound absorption; 6. Good Fluidity; 7. High thermal stability; 8. Low density; 9. High particle strength 10. Low water absorption 11. Stable property " Application 1. Spherical particle, surface vitrified, good fluidity while mixing, good workability, mixed evenly shortly, then reduce the aggregate broke when dry-wet mixing, good thermal property and mechanical property. 2. Can be used in a wide variety of paint and coating systems to reduce VOCs, improve flow and leveling characteristics, and enhance chemical and wear resistance properties. 3. Low water absorption, easily controlled in mortar, low shrinkage, no hollowing and cracking, stable thermal property and mechanical property, increase the mortar service life. 4. Can used in boards and panels for both commercial and residential interiors.The boards are comfortable to handle and easy to cut and fasten like wood.
MicroLite GM- Glass Bubbles are engineered hollow glass microsphere having a high strength-to-density ratio, so they are both lightweight and strong enough to survive processing. Made of soda-lime borosilicate glass, these additives are chemically inert and water resistant having true density of 0.20-0.60 g/cm 3; particle size is 2-130pm. The high-performance GM-hollow glass microspheres feature a smooth, nonporous surface, and their spherical shape offers a variety of advantages over irregularly shaped additives or fillers for many demanding applications. These low-density particles are used in a wide range of industries to reduce part weight, lower costs and enhance properties and overall performance. Characteristics of Glass Microsphere: The unique spherical shape of hollow glass microspheres offers a number of Important benefits, including 1)Higher filler loading 2)Lower viscosity/improved flow 3)Reduced shrinkage and war page 4)Cost effectiveness 5)High performance 6)Weight reduction 7)Thermal Insulation 8)Dimensional stability 9)Sustainability 10)Abrasion resistance 11)Improved Throughput 12)Lightweight
Supplier: Hollow glass microsphere
Services: Manufacturer
Supplier: Hollow glass microspheres
Supplier: Fly ash, fly ash cenospheres, glass crystalline hollow microspheres
Fly ash cenospheres glass crystalline hollow microspheres ranging in size from 20-50 to 400-500 microns micrometers produced in furnaces of thermal power plants using coal. Furthermore, we have contracts with several power plants and can supply about 4,000-5,000 tons of goods annually. The product has the following content: SiO2 50.0-65.0 % Al203 25.0-39.0 % Fe2O3 1.0-7.0 % CaO 0.2-2.0 % MgO 0.2-2.0 % K2O 0.2-4.0 % Na2O 0.3-2.0 % TiO2 0.5-2.0 % Packing: 500Kg Big Bags on pallets Shipping: DAP by truck or CIF/FOB in a sea container to any destination
Cenospheres (aluminosilicate microspheres) are hollow aluminosilicate glass ceramic beads ranging in size from 400-500 microns 20-50mkm (most often from 100 to 250 microns), which are formed during high-temperature combustion of pulverized coal. The chemical composition of the main component of the cenospheres is silicon oxide SiO2 (45-60%), aluminium oxide Al2O3 (15-40%), iron oxide Fe2O3 (1.0-10%), calcium oxide CaO (1.5- 4.5%), potassium oxide K2O (2.0-4.5%) and other certain oxides that make up the balance of the content are typically less than 1.0%. Due to the unique set of physical and chemical characteristics of the cenospheres, they are used in the manufacturing of various composite materials. They are used in solving technical issues that require: reduction in the weight material with a low thermal conductivity, high strength, volume efficiency, increased resistance to erosion and aggressive environments.