Engineering:Steel abrasive

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Short description: Steel particles used as abrasive material
Steel abrasive media

Steel abrasives are steel particles that are used as abrasive or peening media.[1] They are usually available in two different shapes (shot and grit) that address different industrial applications.

Steel shot refers to spherical grains made of molten steel through an atomization ("granulation") process, available in different sizes and hardnesses.

Steel grit characterizes grains with a predominantly angular shape. These grains are obtained by crushing steel shot, therefore they exhibit sharp edges and broken sections. Harder than steel shot, it is also available in different sizes and hardnesses.

Properties

Most steel abrasives are made of a high-carbon steel composition, the best compromise between mechanical properties, efficiency and durability. The most important properties for steel abrasives are hardness, grain size and shape, toughness and cleanliness (lack of oxides, contaminants, etc.).[2]

Recyclability and environmental impact

The recyclability of steel shot and grit ranges between 2000 and 3000 cycles. Due to its high recyclability level, steel shot and grit tend to generate less waste when compared to other expendable abrasives.

Hardness

Steel shot or grit is usually available at different hardness levels, ranging between 40 and 65 on the Rockwell scale (400 to 850 on the Vickers hardness scale).

Industrial applications

Cleaning

Steel shot and grit are used in cleaning applications for removal of loose material on metal surfaces. This type of cleaning is common in automotive industry (motor blocks, cylinder heads, etc.).

Surface preparation

Surface preparation is a series of operations including cleaning and physical modification of a surface. Steel shot and grit are used in a surface preparation process for cleaning metal surfaces which are covered with mill scale, dirt, rust, or paint coatings and for physically modifying the metal surface such as creating roughness for better application of paint and coating. The steel shots are generally employed in shot blasting machines, [3] first made by US-based[4] company Wheelabrator in 1932.[5] In China , shot blasting machines were built around the 1950s,[6] Qinggong Machinery is one of the earliest manufacturers in that industry.[7]

Stone cutting

Steel grit is used in cutting hard stones, such as granite. The grit is used in large multi-blade frames which cut the blocks of granite into thin slices.

Shot peening

Shot peening is the repeated striking of a metal surface by hard shot particles. These multiple impacts produce a deformation on the metal surface, but also improve the durability of the metal part. The media used in this application is spherical rather than angular. The reason is that spherical shots are more resistant to the fracture which happens due to the striking impact.and distributes the peening force more evenly and reduces the risk of stress risers. This makes steel shots a better choice for shot peening in aircraft engineering, where the peened surface must be strong and fatigue-resistant.

Debarring & Descaling

Dustless Steel shot is being used in combination with Steel shots in range of 0.18 mm - 2.80 mm in size for descaling and debarring the surface before further process

Industrial uses

Steel shot and grit address numerous sectors since cleaning, surface preparation or shot peening applications are used by many industries as a part of their construction, renovation or repair processes. The main industrial sectors employing steel abrasives are:

Production

The annual steel abrasive production in the world is estimated to be above 1 million tonnes, the world’s largest producer being Winoa Group (previously known as Wheelabrator Allevard) by production and capacity.[8]

See also

References

  1. Olson, Donald T. (2003). Abrasives, Manufactured. U.S. Geological Survey Minerals Yearbook. p. 5.3. 
  2. Olson, Donald T. (2003). Abrasives, Manufactured. U.S. Geological Survey Minerals Yearbook. p. 4.1. 
  3. Engineering and Design - Thermal Spraying: New Construction and Maintenance. HQ Publications. 1999. p. 6-1. 
  4. Time, Volume 111, Part 1. Time Inc.. January 1978. pp. 46-. https://books.google.com/books?id=sdkeAQAAMAAJ. 
  5. "Bridgeport Project / Southwest Division History". Connecticut Resources Recovery Authority. http://www.crra.org/pages/proj_bridgeport_history.htm. 
  6. "Analysis on Technology and Equipment of China's Shot Blasting". China National Knowledge Infrastructure. June 3, 2009. http://en.cnki.com.cn/Article_en/CJFDTotal-ZZSB200906003.htm. 
  7. "An Overview of Shot Blasting Technology and its Applications". International Daily News. 2020-07-28. http://www.chinesetoday.com/qiye/caijing/20200728/1595936686.html. 
  8. Giese, T.; Briggs, J. (2007). The Abrasives Industry in Europe and North America. Materials Technology Publications. p. 157. ISBN 1-871677-52-1. 

Further reading

  • Montani, C.; 2009, Stone 2009, World Marketing Handbook, Faenza Editrice, ISBN:978-88-8138-124-1
  • Schulze, V.; 2006, Modern Mechanical Surface Treatment, Wiley-VCH, Verlag GmbH & Co. KGaA, Weinheim, ISBN:3-527-31371-0