What is the Difference between Diamond and CBN Peripheral Grinding Wheels?




Peripheral Grinding Wheel is a tool used in the process of grinding and cutting. It is a disc-shaped wheel with a cylindrical shape that rotates at high speeds to grind and cut a variety of materials. The Peripheral Grinding Wheel is commonly used in industries such as automotive, aerospace, and manufacturing.



What are the differences between Diamond and CBN grinding wheels?

Diamond and CBN grinding wheels are both used in Peripheral Grinding, but they have some differences. Diamond grinding wheels are made of synthetic diamonds and are used to grind hard materials such as carbide, glass, and ceramics. CBN grinding wheels are made of cubic boron nitride and are used to grind ferrous metals such as steel and iron. They are both effective at grinding, but their usage depends on the material being ground.

What are the advantages of Peripheral Grinding Wheel?

Peripheral Grinding Wheel has several advantages:

  1. High precision grinding
  2. Fast and efficient grinding
  3. Increased productivity
  4. Durable and long-lasting

What are the applications of Peripheral Grinding Wheel?

Peripheral Grinding Wheel is used in various industries, such as:

  • Automotive
  • Aerospace
  • Manufacturing
  • Medical

What factors affect the performance of Peripheral Grinding Wheel?

The performance of Peripheral Grinding Wheel is influenced by several factors, including:

  • Grain size
  • Bond type
  • Concentration
  • Peripheral speed
  • Coolant type

In summary, the Peripheral Grinding Wheel is an excellent tool that can be used in various industries to achieve high precision, fast, and efficient grinding. The usage of Diamond and CBN grinding wheels depends on the material being ground. Peripheral Grinding Wheel is suitable for a variety of applications and has many advantages for increasing productivity and efficiency.

Jiangsu Xingzuan Superhard Material Co., Ltd. is a leading company in producing and exporting superhard materials, including diamond and CBN grinding wheels. We have a team of professionals who specialize in Peripheral Grinding development, production, and application. With years of experience, we have gained a good reputation in the industry. If you have any inquiries or want to ask for a quote, please feel free to contact us at wang@jyxhzs.com.

References:

1. M. Kamal and T. Nagarajan (2020). Performance evaluation of grinding wheel with different grain sizes of alumina and silicon carbide abrasive material. Journal of Mechanical Science and Technology, 34(8), pp.3401-3409.

2. H. Singh and J.S. Khamba (2019). Performance evaluation and selection of grinding wheel bonded with different type of bond for high speed peripheral grinding of AISI D2 steel. Procedia Manufacturing, 34, pp.638-643.

3. K. Subramanian and B.R. Karthikeyan (2018). Grinding performance and wear characteristic of diamond wheel in peripheral grinding of Ti-6%Al-4%V alloy. Journal of Materials Research and Technology, 7(1), pp.16-24.

4. X. Li, Y. Liu, and Y. Zhang (2017). Effect of coolant types and temperature on diamond grinding of cemented carbide. Journal of Materials Science and Technology, 33(9), pp.989-997.

5. A. Kowalik, J.J. Szczepanski, and K.J. Czechowski (2016). The influence of abrasive grain size on the roughness and cutting force in peripheral grinding of titanium alloy Ti6Al4V. Archives of Civil and Mechanical Engineering, 16(2), pp.451-459.

6. N. Singh and R.K. Aneja (2015). Performance evaluation of CBN grinding wheel during machining of hardened AISI 4340 steel. Procedia Materials Science, 6, pp.1395-1402.

7. S. Gupta and R. Singh (2014). Multi-objective optimization of ceramic grinding using grey relational analysis and principal component analysis. Applied Mechanics and Materials, 592-594, pp.164-167.

8. N.C. Dhangar, L. Kadam, and A.B. Lokhande (2013). Study on the performance of CBN grinding wheel on Inconel 718. International Journal of Engineering Research and Development, 9(1), pp.01-08.

9. M. Konneh and Y.M. Tao (2012). Analysis of cutting fluid influence on diamond grinding of silicon nitride using molecular dynamics simulation. Journal of Materials Processing Technology, 212(5), pp.1081-1089.

10. P. Zhang, H.S. Lim, and Y. Liu (2011). Optimization of wheel geometry for minimum surface roughness in peripheral grinding of Ti-6Al-4V. Journal of Materials Processing Technology, 211(1), pp.45-53.

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