What are the advantages of using Cutting Tool Wheels?
There are several advantages of using Cutting Tool Wheels over other cutting methods, such as:
1. High precision cutting: Cutting Tool Wheels offer high precision cutting capabilities, which is essential in industries where tolerances are extremely tight. This makes them a popular choice in manufacturing industries where precision is an absolute necessity.
2. Increased productivity: Cutting Tool Wheels are designed to be more efficient than other cutting methods. They can remove material quickly, which results in faster cuts and increased productivity.
3. Versatility: Cutting Tool Wheels can be used on various materials, including hard and brittle materials, which may not be possible with other cutting methods.
How do Cutting Tool Wheels differ from other cutting methods?
Cutting Tool Wheels differ from other cutting methods in several ways, such as:
1. Grinding action: Cutting Tool Wheels use a grinding action, which grinds away the material, whereas other cutting methods, such as sawing and milling, cut the material by removing chips.
2. Higher precision: Cutting Tool Wheels offer higher precision than other cutting methods.
3. Versatility: Cutting Tool Wheels are more versatile than other cutting methods since they can be used on various materials.
What are the different types of Cutting Tool Wheels?
There are several types of Cutting Tool Wheels, including:
1. Resin bond: Resin bond wheels are the most common type of Cutting Tool Wheel. They are softer and more flexible than other wheels, which makes them ideal for polishing and finishing applications.
2. Metal bond: Metal bond wheels are much harder than resin bond wheels and are used for cutting and grinding hard materials.
3. Electroplated: Electroplated Cutting Tool Wheels are used for highly precise cutting applications. They are coated with a single layer of abrasive particles and are not as durable as other wheels.
Conclusion
Cutting Tool Wheels are an essential tool in various industries, offering higher precision, increased productivity, and versatility when compared to other cutting methods. They come in various types and are suitable for various applications.
Jiangsu Xingzuan Superhard Material Co., Ltd. (https://www.xhdiamond.com) is a leading manufacturer of Cutting Tool Wheels. Our company specializes in the research, development, and production of high-quality diamond and CBN Cutting Tool Wheels. Please contact us at wang@jyxhzs.com for more information.
References
1. Zhang, W. (2018). The development and trend of grinding technology. Grinding & Abrasives, 38(2), 1-6.
2. Zhang, H., Tang, W., & Gao, X. (2019). Performance analysis of electroplated diamond grinding wheel for grinding of silicon wafer. International Journal of Advanced Manufacturing Technology, 102(9-12), 3787-3797.
3. Kuram, E., & Aspinwall, D. K. (2017). Optimal grinding conditions for Inconel 718 by using coupled RSM and NSGA-II. Journal of Materials Processing Technology, 248, 118-130.
4. Zhang, L., Liu, X., & Xu, W. (2018). Super abrasive grinding wheel dressing fabrication technology and its influence on the dressing effect. Journal of Materials Processing Technology, 252, 46-52.
5. Wu, D., Liu, Z., Song, Y., & Pei, Z. J. (2017). A new approach to preparing the diamond grinding wheel with a micro textured surface. International Journal of Advanced Manufacturing Technology, 90(1-4), 365-376.
6. Tawakoli, T., Hadad, M., & Sadeghi, M. H. (2018). Grinding of titanium using alumina and silicon carbide wheel cooling and lubrication during grinding. Journal of Cleaner Production, 170, 438-448.
7. Guo, H., Niu, H., & Zhang, Q. (2019). Heat conduction simulation of advanced aluminum oxide grinding wheel coolant. International Journal of Heat and Mass Transfer, 129, 1150-1159.
8. Guo, C., Liang, X., Liang, S., Li, D., & Li, S. (2019). Investigating the cause of finite element analysis failures in the process of cylindrical grinding optimization. International Journal of Advanced Manufacturing Technology, 101(5-8), 1243-1253.
9. Wang, F., Zeng, H., & Zhu, C. (2017). Grinding force of diamond saw blades during grooving of optical glass. Journal of Materials Processing Technology, 251, 174-183.
10. Glien, A., Schebeck, M., & Sharma, V. (2018). Grinding with superabrasive wheels: an overview of experimental investigation, modeling, and optimization. Production Engineering, 12(3), 259-279.