Choosing Coated Abrasives
Post Date: 29 Jul 2014 Viewed: 1088
How to read a coated abrasives specification
A coated abrasive product is made up of three basic raw materials: an abrasive mineral, the backing onto which the abrasive is applied, and an adhesive bond.
The Norton Abrasives coated abrasive marking system includes both a generic and a technical marking. The generic markings identify the abrasive type, bond, backing, and any special features and/or tradenames.
The technical markings identify the actual components which make up the product. Technical markings consists of up to 10 parts.
Abrasive Types
Emery
Emery is a dark gray, round-shaped grain which tends to polish rather than abrade a work surface.
• For polishing and cleaning metal only
Garnet
Garnet is reddish brown in colour. This natural abrasive is medium hard and relatively sharp, but not as durable as synthetic abrasives.
• For use on wood only
• Particularly good for soft woods such as pine
• Produces an excellent finish
Silicon Carbide
Silicon carbide is the hardest and sharpest of the manufactured abrasives. Because of its extreme sharpness, this bluish-black abrasive grain permits fast stock removal and cool cut.
• Cast iron
• Non-ferrous metals, i.e. Brass, aluminum and bronze
• Non-metallics, i.e. Glass, rubber, plastic and stone
• Final finish on wood and stainless steel
• Abrasive planing particleboard
Heat-treated Aluminum Oxide
Heat-treated aluminum oxide is a tough but cool cutting abrasive which gives both long life and freeness of cut on a wide range of materials.
• Ferrous metals
• Wood sanding
Zirconia Alumina
Zirconia alumina is an ultra-tough, synthetic abrasive which provides a free, cool cut for high stock removal applications. It is tougher and sharper than aluminum oxide. It has a micro-crystalline structure which allows for controlled breakdown and self-sharpening.
• Heavy-duty snagging and grinding of all ferrous and non-ferrous metals
• Abrasive planing of wood, plywood and particleboard
• Grinding fiberglass, rubber and plastics
Ceramic Alumina
The sub-micron structure of ceramic alumina allows each grain to continually expose sharp cutting points, resulting in a cooler cutting action and an extended life.
• All ferrous/non-ferrous metals, carbon steel and exotic alloys
Backing Types
Backings are the base for the abrasive minerals and, combined with the adhesive bond, support and anchor the abrasive mineral. The backings used in the manufacturing of coated abrasives are:
Paper
Paper is used for a variety of operations from hand sanding to mechanical sanding. It is the lease expensive backing. Due to the fine surface of paper, a consistent finish is produced. Paper weights include A, B, C, D, E and F weights with A being the lightest and the most flexible and F being the heaviest and least flexible. A, B, C and D weight papers are used for hand sanding and light mechanical operations in the form of sheets, Grip-On and Stick-On discs and Stick-On rolls. E and F weight papers are primarily used for more aggressive mechanical operations in the form of belts and discs.
Cloth
Cloth backings used for coated abrasives are identified by weight. Cloth backings are filled or “finished” with a variety of materials, glues or resins, to create various backing characteristics, most notably flexibility. There are three basic weights of cloth: J-weight or “jeans” is the lightest and most flexible. X-weight or “drills” is a heavier cloth that ranges in flexibility, strength and durability and is used on the broadest range of applications. Y-weight is a heavyweight drills cloth used on heavy-duty, high stock removal operations. Several cloth types are used: cotton, polyester, and polyester/cotton blends.
Fiber
Vulcanized fiber (cotton fibers which are chemically treated and then pressed under temperature and pressure to form a very durable backing) is used exclusively as the backing for resin fiber discs.
Film
Polyester film backing comes in 3 mil. and 5 mi. thicknesses, which have high strength and surface smoothness. They are used primarily in disc and roll applications requiring consistent surface finish.
Coating Types
There are two types of abrasive coatings used in the manufacturing of coated abrasives: open coat and closed coat.
Open Coat
With an open coat, 50% to 75% of the coated abrasive surface is covered by abrasive grain. There are evenly spaced voids between the particles of grain, helping reduce the effect of loading caused by wood dust or metal particles.
Closed Coat
With a closed coat, the entire coated abrasive surface is covered with abrasive grain, with no voids between the particles. This is the most typical coating, permitting the greatest degree of stock removal and longest product life.
Bond Types
An adhesive bond system is required to secure the abrasive mineral to the backing. All coated abrasive products are made with a two-stage bonding process. The first layer of bond applied to the backing is called the make coat. The make coat provides the adhesive base between the abrasive mineral and backing.
The second coat is the size coat, which is applied over the abrasive mineral and make coat to anchor the abrasive mineral and provide the desired physical strength of the finished product.
Glue, urea resin, and phenolic resin are the three basic bonding agents most commonly used. There are many size coat and make coat combinations, such as glue over glue, urea over glue, and resin over resin. Glue over glue is the most flexible bond while resin over resin bond is moisture-resistant, harder, less flexible, heat-resistant and has superior grain retention.�