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| | Fiber Glass Wool Basic information |
| | Fiber Glass Wool Chemical Properties |
| Melting point | 680 °C | | Boiling point | 1000 °C | | density | 1.1 g/mL at 25 °C(lit.) | | storage temp. | 15-25°C | | form | Fiber (particle with a lengthto-diameter aspect ratio of 3 to 1 or greater). | | PH | 9-11 (100g/l, H2O, 20℃)(slurry) | | Stability: | Stable. | | EPA Substance Registry System | Glass, oxide, chemicals (65997-17-3) |
| | Fiber Glass Wool Usage And Synthesis |
| Chemical Properties | generally sold as a wool-like material | | Chemical Properties | Fibrous glass is the name for a manufactured
fiber in which the fiber-forming substance is glass. Glasses
are a class of materials made from silicon dioxide with oxi des of various metals and other elements, which solidify
from the molten state without crystallization. Typically,
glass filaments >3 μm in diameter or glass “wool” with
diameters down to 0.05 μm & length >1 μm.A fiber is
considered to be a particle with a length-to-diameter ratio
of 3:1 or greater. The volume of small diameter fiber pro duction has not been determined. Fibers with diameters less
than 1 μm are estimated to comprise less than 1% of the
fibrous glass market. Specific gravity (H2O:1) = 2.5.
Hazard identification (based on NFPA-704 M Rating
System): Health 1, flammability 0, reactivity 0. Insoluble in
water. | | Uses | Thermal, acoustic, and electrical insulation
(coarse fibers in bats or sheets); decorative and utility
fabrics such as drapes, curtains, table linen, carpet
backing, tenting, etc.; tire cord as belt between
tread and carcass; filter medium; reinforced plastics;
light transmission for communication signals;
reinforcement of cement products for construction
use. | | Uses | Glasswool is used for thermal and
acoustical insulation in construction and ship
building; for air filtration in furnaces and airconditioning
systems. | | Uses | Silica glass spheres are low density filler for coatings and plastics. Silica was used in synthesis of silicalite. Silica was also used to assist the catalytic growth of oxide and nitride nanowires. | | Definition | Generic name for a manufactured fiber in which the fiber-forming substance is glass (Federal Trade
Commission). Noncombustible. | | Definition | glass: Any noncrystalline solid; i.e. asolid in which the atoms are randomand have no long-range ordered pattern.Glasses are often regarded as supercooledliquids. Characteristicallythey have no definite melting point,but soften over a range of temperatures.
The common glass used in windows,bottles, etc., is soda glass,which is made by heating a mixtureof lime (calcium oxide), soda (sodiumcarbonate), and sand (silicon(IV)oxide). It is a form of calcium silicate.Borosilicate glasses (e.g. Pyrex) aremade by incorporating some boronoxide, so that silicon atoms are replacedby boron atoms. They aretougher than soda glass and more resistantto temperature changes,hence their use in cooking utensilsand laboratory apparatus. Glasses forspecial purposes (e.g. optical glass)have other elements added (e.g. barium,lead). See also spin glass. | | General Description | Silica is a naturally occurring material in minerals, flint and in some plants in crystalline phase. Silica used in industries is in synthetic form. Surface area, pore volume, pore size and particle size are independently controllable to some extent. The crystalline silica may be classified based on atmospheric pressure as:
a. Quartz = 1143K
b. Tridymite 1143 - 1743K
c. Cristobalite = 1743, over 1973K it forms amorphous vitreous silica glass. | | Hazard | A possible carcinogen. | | Health Hazard | Glass fibers cause skin, eye, and
upper respiratory tract irritation; although
earlier classified by IARC to be a Group 2B
carcinogen, possibly carcinogenic to humans,
more recent evaluations indicate the human
risk, if any, to be minimal. | | Industrial uses | Fine flexible glass fibers made from glass are used for heat and sound insulation, fireproof textiles,acid-resistant fabrics, retainer mats for storage batteries, panel board, filters, and electrical insulating tape, cloth, and rope. Molten glass strings out easily into threadlike strands, and this spun glass was early used for ornamentalpurposes but the first long fibers of fairly uniformdiameter were made in England by spinningordinary molten glass on revolving drums.
The standard glass fiber used in glass-reinforced plastics is a borosilicate type known asE-glass.Glass cloth of plain weave of either continuous fiber or staple fiber is much used forlaminated plastics.
| | Industrial uses | Glass, one of the oldest and most extensivelyused materials, is made from the most abundantof Earth’s natural resources — silica sand. Forcenturies considered as a decorative, fragilematerial suitable for only glazing and artobjects, today glass is produced in thousandsof compositions and grades for a wide range ofconsumer and industrial applications. | | Industrial uses | The primary engineering benefits of glass fibersare their inorganic nature, which makesthem highly inert; high strength-to-weightratio; nonflammability; and resistance toheat, fungi, and rotting.
Glass fibers are produced in both filamentand staple form. Their major engineering usesare thermal and/or acoustical insulation andas reinforcements, primarily for plastics. | | Potential Exposure | The major uses of fibrous glass are in
thermal, electrical, and acoustical insulation; weatherproof ing, plastic reinforcement; filtration media; and in structural
and textile materials. | | Waste Disposal | Fibrous glass waste and scrap
should be collected and disposed of in a manner which will
minimize its dispersal into the atmosphere. Emphasis
should be placed on covering waste containers; proper stor age of materials; and collection of fibrous glass dust.
Clean-up of fibrous glass dust should be performed using vacuum cleaners or wet cleaning methods. Dry sweeping
should not be performed. |
| | Fiber Glass Wool Preparation Products And Raw materials |
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