How Abrasive Grinding Wheel Manufactured?

Operating an abrasive wheel is one of the most dangerous operations in the construction industry. If the operator is careless about safety, it would occur abrasive wheel accidents. To let you have a full understanding of abrasive grinding wheels before you get the abrasive wheel training. This page would give you a brief introduction to the manufacturing process.
 

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What is an abrasive wheel?

An abrasive wheel (grinding wheel) made up of compound bonded abrasive particles, is designed for cutting and grinding materials such as metal and concrete. Nylon is the commonly used raw material for the abrasive wheel.

Abrasive wheels can be fitted to different types of mechanical apparatus for different industrial areas, such as angle grinders, petrol saws, handheld machines, and so on.
 

Manufacturing Process of Abrasive Wheel(Grinding Wheels)

A rough and simple wheel also needs a series of standard and complex procedures. The whole manufacturing process includes 7 procedures. Here are the procedures:
 

Raw materials

Raw materials are the first and vital step to manufacturing the abrasive wheel. The raw materials include abrasive grains, bonds, and filling. Different wheel requires different kinds of raw materials. Take an instance, The factory usually uses synthetic non-woven fiber and abrasive emery as the raw materials of the flap wheel.

Except for the normal functional materials, the abrasive wheel also contains many compounds as filling. The filling has different functions, such as performance increase or coloring.
 

Mixing the ingredients

When all materials are set up. We need to mix them thoroughly and dry them.
 

Molding

After drying them, it&#;s time to form them in mold. Forming them could make the product easier to be used and to be installed. In this step, we also should insert the special glass fiber(glass cloth) as reinforcement during the process of molding.
 

Pressing

Pressing is an important step to ensure the finished products could fit the required standard. The factory usually controls the pressure is in the range of 100 to pounds per square inch(psi) for 10S-30S.
 

In this pressing process, establishing even thickness is the key point of pressing. Therefore, some professional manufacture would control the thickness through closely monitoring the consistency of the mix and the force of the press.

Placement

After demolding, the wheel should be placed on an even, heatproof carrier. In this step, we should pay more attention to the placement, because the wheel is formed by a temporary binder. If the wheel is relatively heavy, it needs to be transported by some transporting tools.
 

Firing

Firing is a very significant process that could influence its grade and quality. The firing process could enhance the ability to resist the heat and solvents encountered during grinding.

The firing temperature is varied, depending on the type of bond. Take an instance, the wheels with vitrified bonds are fired to temperatures between and degrees Fahrenheit.
 

Test: What is an Abrasive Wheel Ring Test?

Abrasive Wheel Ring Test is a procedure that factory inspects whether the abrasive wheel has cracks or other flaws. Therefore, an abrasive wheel ring test should be performed on abrasive wheels.
 

Common Types of Abrasive

After we understand the abrasive wheel manufacturing process, we also need to know the types of abrasive. The abrasive wheel could be divided into different categories.
 

Abrasive Cut Off Wheel

The abrasive cut-off wheel is the most commonly used on hard materials such as metal, stone, and so on. It is also called the self-sharpening wheel. It is a suitable and ideal tool used for maintenance, repair, metal fabrication, and other normal industrial applications.
 

Grinding Wheel

Initially designed for the grinding machines, the grinding wheel is used for grinding, abrasive cutting, abrasive machining operation. The grinding wheel includes a cylinder ring, tapered type, diamond-type.
 

Fiber Disc

With vulcanized fiber backing, the fiber disc is around the grinding wheel. One of its sides has resin and abrasive grain resin. It is widely used in machining metal.
 

Polish Pad

Polish pad is the common grinding tool for removing the slight scratches and dents from the cars. Also, it could give relatively finish to the starches or dents areas, with the cooperation of the polishing compound.
 

Flap Wheels

Good elasticity, high security, and safety are the outstanding features of these wheels. Therefore, it could be an ideal and proper polishing tool for most irregular surfaces. Flap wheels also have a variety of grit size for wide application. 60 grit flap wheel is the best size for deburring and blending.

Flap Discs

Made up of multiple overlapping pieces of flaps, the flap discs can be applied to welding, finishing, industrial maintenance, and food production. Most manufactures offer a variety of flap discs, therefore, you need to take the flap grit size, shape, and backing material into the consideration.
 

Conclusion

When you plan to purchase abrasive wheels in bulk, you may prefer to consider abrasive wheels manufacturers in India, due to the low labor cost. However, the abrasive wheel is a precision tool for polishing or grinding machines. If you over-focus on the cost, you may fail to get the perfect finish surface that affects the quality and function of your machines.

26 Nov,

Abrasive cutting tool for grinders

This article is about the modern abrasive cutting tool. For the traditional tool, see Grindstone . For millstones as grinding wheels, see Millstone . For the Overkill album, see The Grinding Wheel

Various types of grinding wheels

Grinding wheels are wheels that contain abrasive compounds for grinding and abrasive machining operations. Such wheels are also used in grinding machines.

The wheels are generally made with composite material. This consists of coarse-particle aggregate pressed and bonded together by a cementing matrix (called the bond in grinding wheel terminology) to form a solid, circular shape. Various profiles and cross sections are available depending on the intended usage for the wheel. They may also be made from a solid steel or aluminium disc with particles bonded to the surface. Today most grinding wheels are artificial composites made with artificial aggregates, but the history of grinding wheels began with natural composite stones, such as those used for millstones.

The manufacture of these wheels is a precise and tightly controlled process, due not only to the inherent safety risks of a spinning disc, but also the composition and uniformity required to prevent that disc from exploding due to the high stresses produced on rotation.

Grinding wheels are consumables, although the life span can vary widely depending on the use case, from less than a day to many years. As the wheel cuts, it periodically releases individual grains of abrasive, typically because they grow dull and the increased drag pulls them out of the bond. Fresh grains are exposed in this wear process, which begin the next cycle. The rate of wear in this process is usually very predictable for a given application, and is necessary for good performance.

Characteristics

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There are five characteristics of a cutting wheel: abrasive material, grain size, wheel grade, grain spacing, and bond type. They are indicated by codes on the wheel's label.

Abrasive Material

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The abrasive aggregate is selected primarily according to the hardness of the material being cut. Chemical compatibility is also a concern. For example because carbon alloys with iron, silicon carbide is not suitable for use with iron-based metals like steel.[citation needed]

Grinding wheels with diamond or CBN grains are called superabrasives. Grinding wheels with aluminum oxide (corundum), silicon carbide, or ceramic grains are called conventional abrasives.

Grain size

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From 10 (coarsest) to 600 (finest), determines the average physical size of the abrasive grains in the wheel. A larger grain will cut freely, allowing fast cutting but poor surface finish. Ultra-fine grain sizes are for precision finish work. Generally, grain size of grinding wheels are 10-24 (coarse), 30-60 (medium), 80-200 (fine), and 220-600 (very fine).

Wheel grade

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From A (soft) to Z (hard), determines how tightly the bond holds the abrasive. A to H for softer structure, I to P for moderately hard structure and Q to Z for hard structure. Grade affects almost all considerations of grinding, such as wheel speed, coolant flow, maximum and minimum feed rates, and grinding depth.

Grain spacing

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Spacing or structure, from 1 (density) to 17 (least dense). Density is the ratio of bond and abrasive to air space. A less-dense wheel will cut freely, and has a large effect on surface finish. It is also able to take a deeper or wider cut with less coolant, as the chips clearance on the wheel is greater.

Wheel bond

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How the wheel holds the abrasives; affects finish, coolant, and minimum/maximum wheel speed.

Are you interested in learning more about abrasive grinding wheel manufacturers? Contact us today to secure an expert consultation!

Bond name Bond symbol Bond description Vitrified V Glass-based; made via vitrification of clays and feldspars Resinoid B Resin-based; made from plants or petroleum distillates Silicate S Silicate-based Shellac E Shellac-based Rubber R Made from natural rubber or synthetic rubber Metal M Made from various alloys Oxychloride O Made from an oxohalide Plated P Made by Electro / Electroless bonding of metal to hold abrasive

Types

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Straight wheel

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Straight wheel

To the top is an image of a straight wheel. These are by far the most common style of wheel and can be found on bench or pedestal grinders. They are used on the periphery only and therefore produce a slightly concave surface (hollow ground) on the part. This can be used to advantage on many tools such as chisels.

Straight Wheels are generally used for cylindrical, centreless, and surface grinding operations. Wheels of this form vary greatly in size, the diameter and width of face naturally depending upon the class of work for which is used and the size and power of the grinding machine.

Cylinder or wheel ring

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Cylinder wheels provide a large, wide surface with no center mounting support (hollow). They can be very large, up to 12" in width. They are used only in vertical or horizontal spindle grinders. Cylinder or wheel ring is used for producing flat surfaces, the grinding being done with the end face of the wheel.

Tapered wheel

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A straight wheel that tapers outward towards the center of the wheel. This arrangement is stronger than straight wheels and can accept higher lateral loads. Tapered face straight wheel is primarily used for grinding thread, gear teeth ...

Straight cup

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Straight cup wheels are an alternative to cup wheels in tool and cutter grinders, where having an additional radial grinding surface is beneficial.

Dish cup

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A very shallow cup-style grinding wheel. The thinness allows grinding in slots and crevices. It is used primarily in cutter grinding and jig grinding.

Saucer wheel

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A special grinding profile that is used to grind milling cutters and twist drills. It is most common in non-machining areas, as sawfilers use saucer wheels in the maintenance of saw blades.

Diamond wheels

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Diamond wheel

Diamond wheels are grinding wheels with industrial diamonds bonded to the periphery.

They are used for grinding extremely hard materials such as carbide cutting tips, gemstones or concrete. The saw pictured to the right is a slitting saw and is designed for slicing hard materials, typically gemstones.

Mounted points

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Mounted points are small grinding wheels bonded onto a mandrel. Diamond mounted points are tiny diamond rasps for use in a jig grinder doing profiling work in hard material. Resin and vitrified bonded mounted points with conventional grains are used for deburring applications, especially in the foundry industry. Mounted points is a small handle with a general name, used in electric mill, hanging mill, hand drill. Many of the main types of ceramic mounted points, rubber mounted points, diamond mounted points, emery cloth and so on.

Ceramic mounted points: granular sand (usually corundum, white jade, chrome corundum, silicon carbide) made of ceramic binder sintering, the central supplemented by metal handle. Mainly grinding all kinds of metal, for the diameter of the inner wall of the grinding, mold correction. Rubber mounted points: finer particle size sand combined by rubber binder Into, for the polishing of the mold. sandpaper mounted points: Multi-piece rectangular sand cloth, bonding around the metal handle. Granularity is generally in the 60 # -320 #, for the diameter of the inner wall of the polishing. Diamond mounted points: A grinding tool for non-metallic materials such as stone, porcelain and the like, and more particularly to a grinding tool using a diamond alloy as a grinding body comprising a substrate and a plurality of grinding bodies, And the substrate is preferably made of an adhesive material having a certain toughness, and the grinding body is preferably made of a diamond alloy material, and the substrate is preferably made of a diamond alloy material, The utility model has the characteristics of high grinding performance, simple manufacture and low cost, high grinding quality and can be applied to large-scale grinding.

Cut off wheels

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Cut off wheels, also known as parting wheels, are self-sharpening wheels that are thin in width and often have radial fibres reinforcing them. They are often used in the construction industry for cutting reinforcement bars (rebar), protruding bolts or anything that needs quick removal or trimming. Most handymen would recognise an angle grinder and the discs they use.

Use

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Grinding produces sparks and little fragments of metal, called swarf.

To use the grinding wheel it must first be clamped to the grinding machine. The wheel type (e.g. cup or plain wheel below) fit freely on their supporting arbors, the necessary clamping force to transfer the rotary motion being applied to the wheels side by identically sized flanges (metal discs). The paper blotter shown in the images is intended to distribute this clamping force evenly across the wheels surface.

Dressing

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Grinding wheels are self-sharpening to a small degree; for optimal use they may be dressed and trued by the use of wheel or grinding dressers. Dressing the wheel refers to removing the current layer of abrasive, so that a fresh and sharp surface is exposed to the work surface. Trueing the wheel makes the grinding surface parallel to the grinding table or other reference plane, so that the entire grinding wheel is even and produces an accurate surface.

Grinding wheels and grinding tools are used extensively in industry and manual trades for treating surfaces and for separating and cutting objects and have to withstand massive mechanical stress. Mostly centrifugal forces can cause a break, but also flexural and shear forces. Since a break or failure of the grinding tool can present a severe hazard to people and machinery due to the high levels of energy released, high standards are placed on the mechanical and breaking strength of grinding tools in the European safety standards. The Institute for Occupational Safety and Health of the German Social Accident Insurance conducts tests based on the "Rules of Procedure for Testing and Certification carried out by the Testing and Certification Bodies in DGUV Test".[1]

See also

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References

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