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Specification
Brand : I.W. Tremont
BulletPoint : Grade VSS cut 9.0cm diameter - 100/pk Binderless glass microfiber, high heat up to 550 C for volatile suspended solids
BulletPoint1 : Glass microfiber filters offered in this product range are produced from 100% borosilicate glass microfiber without the use of binders or strengthening agents
BulletPoint2 : These filters offer many advantages in a wide range of analytical applications
BulletPoint3 : The fibers used to manufacture these depth filters are smooth and uniform
BulletPoint4 : This permits their characteristically high flow rates while allowing retention of exceptionally small particles and high load capacity
BulletPoint5 : These characteristics are particularly important in applications involving high concentrations of particulate or gelatinous substances
IncludedComponents : VSS9000
ItemName : Binderless Glass Microfiber Filter Media, Grade A, 15.0 cm
ItemPackageDimensions_Height : 1 inches
ItemPackageDimensions_Length : 1 inches
ItemPackageDimensions_Width : 1 inches
ItemPackageQuantity : 1
ItemShape : Disk
ItemTypeKeyword : science-lab-glass-fiber-filters
Manufacturer : I.W. Tremont
Material : 100% borosilicate glass microfiber
NumberOfBoxes : 1
NumberOfItems : 100
NumberOfPieces : 100
PackageLevel : unit
PartNumber : A1500
ProductDescription : Glass microfiber filters offered in this product range are produced from 100% borosilicate glass microfiber without the use of binders or strengthening agents. These filters offer many advantages in a wide range of analytical applications and are sold in packs of 100. The fibers used to manufacture these depth filters are smooth and uniform. This permits their characteristically high flow rates while allowing retention of exceptionally small particles and high load capacity. These characteristics are particularly important in applications involving high concentrations of particulate or gelatinous substances. In choosing the appropriate filter for a specific application, careful consideration should be given to the physical form and concentration of the material to be captured by the filter. Depth filtration categorizes filter media that traps particulate within the random matrix of fibers found within the thickness of the media. The efficiency rating of the filter is characteristic of the complex void space structure that develops as the fibers overlap. The fibrous material within the filter is commonly glass microfiber, cellulose or polypropylene.
ProductSiteLaunchDate : 2015-11-20T17:55:39.102Z
SupplierDeclaredDgHzRegulation : unknown
UnspscCode : 52150000