200 x 20mm / 8 x ³/₄ inch Bench Grinding Wheels
from £22.77 exc. VAT / inc. VAT £27.32
Each
- Description
Description
200 x 20mm / 8 x ³/₄ inch Bench Grinding Wheels
Name: | 200 x 20mm / 8 x ³/₄ inch Bench Grinding Wheels |
Width: | 20mm – ³/₄ inch |
Mineral: | A – Aluminium Oxide; WA – White Aluminium Oxide; GC – Silicon Carbide; NG – Ceramic |
Bore: | 31.75mm / 1 ¹/₄ |
Grit: | 46; 60; 100 |
Applications: | Metal |
200 x 20mm / 8 x ³/₄ inch Bench Grinding Wheels – Product Description:
200 x 20mm / 8 x ³/₄ inch Bench Grinding Wheels are constructed using the latest natural and synthetic grit configurations to the highest quality. This ensures optimum grinding efficiency and wheel longevity, whether you are simply rough grinding, removing stock or looking for that grinding solution for difficult-to-grind or heat-sensitive materials. GYSL’s next-generation grain technology offers the best grinding performance available in today’s market.
Selecting the right grain & grade:
To achieve the best possible grinding performance, it is important to select the correct wheel grade or specification. The selection should be based on 3 main considerations:
- Grain type – depending on what material you are grinding.
- Grit size -, depending on stock to be removed and/or surface finish requirements.
- Hardness – depending on component material and application requirements.
Other factors such as wheel structure can affect the wheel’s grinding performance and capabilities.
Grain Types & Their Advantages:
Brown Aluminium Oxide (A) is a hard and tough grain suitable for a wide range of applications. It is commonly used for rough grinding on bench or pedestal machines providing good cutting properties and tool life.
White Aluminium Oxide (WA) is more friable than Brown Alumina Oxide (A) which contributes to the cooling effect during grinding resulting in a better grinding performance. Suitable for grinding of most steel types and other high strength or high hardness materials where heat generation is a concern. Highly suitable for tool room, surface, and cylindrical applications where precision and control are required. Commonly used throughout most precision-based engineering applications.
Green Silicon Carbide (GC) is a very sharp and brittle grain which is extremely hard only second to boron carbide and diamond. It provides a bright clean cut and is especially suited to the grinding and sharpening of carbides and hand-held tooling. It is also suitable for the grinding of grey and cast iron, non-ferrous metals such as brass, bronze and aluminium as well as stone and rubber. It is also recommended for certain types of stainless steel and is commonly used to dress diamond-bonded wheels.
Ceramic Aluminium Oxide (NG) is the jewel in the crown when it comes to wheel performance. Our Ceramic grain offers next-generation technology manufactured in a sintered gel process. This results in a grain that can fracture at a controlled rate at the sub-micron level constantly creating thousands of new cutting points. This grain is exceptionally hard and strong making it the number one choice for precision grinding of hardened steels and alloys upwards of 60 Rockwell. During extensive testing on tool steels such as D2, this grade provided unrivalled performance removing stock more quickly than anything else on the market. It is also able to remain very cool providing a blemish-free surface finish.
Grit Size:
The two main considerations when deciding grit size are your dependence on either stock removal or surface finish requirements.
A coarser grit will remove stock more quickly but provide a rougher surface finish whereas a finer grit will provide a better finish but will take longer to remove stock. Another consideration is the type of grinding you are doing, for example, if you are plunge grinding and need to hold form you will benefit from a closer structure wheel and slightly finer grit.
Coarse: | 24; 30; 36 |
Medium: | 46; 54; 60; 70 |
Fine: | 80; 100; 120; 150 |
Very Fine: | 180; 220; 240; 280; 320; 400 |
Hardness:
The hardness of a wheel can affect its performance in several ways, softer wheels are more free-cutting and less likely to burn the component but are prone to wear more quickly. Harder wheels are more durable but may be susceptible to clogging and require more frequent dressing. Wheel hardness is determined alphabetically by a letter being placed after the grit size. The later in the alphabet the letter is then the harder the wheel.
Soft: | E; F; G; H |
Medium: | J; K; L |
Hard: | M; N; O; P; Q; R; S; T; Y |
Wheel Structure:
The structure of the wheel refers to the spacing or pores between the abrasive grains. An open structure contains large pores so that the grits are spaced further apart, a close structure is the opposite with grits tightly packed together. Open structures are better for grinding softer or sensitive materials, close structures offer better edge retention in precision or formed wheels.
Other grinding wheel sizes, materials and shapes are available upon request or in our online shop.
If you are unsure which belt you require, please send us your application description, or currently used belt size, material reference (if known), and grit and we will get back to you with our best equivalent material and our best price.
Please get in touch with us for more details.
Delivery Information:
Please see the information for all delivery costs.
Delivery times do not include weekends or bank holidays.
All stock orders placed will be dispatched within 2-3 days with next-day service, excluding weekends and bank holidays.
Delivery time for all custom or non-stock item orders is applicable and will be confirmed when the order is received.