Study on textured CBN grinding wheel by laser cladding

Zhao, Xufeng; Yu, Tianbiao; Jia, Chuang; Lu, Shuhao; Chen, Liaoyuan; Wang, Wanshan

doi:10.1007/s00170-019-04240-w

Cited by 9 publications

(2 citation statements)

References 36 publications

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“…The research mainly concerns the production of tools with increased porosity and expected internal structures. Due to the limitations of conventional hot pressing sintering fabrication process, many researchers focus on the use of innovative materials and novel techniques to produce grinding wheels, including current laser process technology [ 82 , 83 ]. One of the examples is a 3D controllable abrasive arrangement grinding wheels which enable to achieve high machining performance [ 29 , 84 ].…”

Section: Application Of Am Technologies In Abrasive Machiningmentioning

confidence: 99%

“…Micro- and macro-fracturing of grains created new cutting edges improving the grinding performance. Laser cladding is another succesfully introduced method of manufacturing textured CBN/CuSnTi grinding wheels resulting in lower grinding forces and temperature in comparision with electroplated grinding wheels [ 83 ].…”

Section: Application Of Am Technologies In Abrasive Machiningmentioning

confidence: 99%

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Applications of Additively Manufactured Tools in Abrasive Machining—A Literature Review

et al. 2021

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High requirements imposed by the competitive industrial environment determine the development directions of applied manufacturing methods. 3D printing technology, also known as additive manufacturing (AM), currently being one of the most dynamically developing production methods, is increasingly used in many different areas of industry. Nowadays, apart from the possibility of making prototypes of future products, AM is also used to produce fully functional machine parts, which is known as Rapid Manufacturing and also Rapid Tooling. Rapid Manufacturing refers to the ability of the software automation to rapidly accelerate the manufacturing process, while Rapid Tooling means that a tool is involved in order to accelerate the process. Abrasive processes are widely used in many industries, especially for machining hard and brittle materials such as advanced ceramics. This paper presents a review on advances and trends in contemporary abrasive machining related to the application of innovative 3D printed abrasive tools. Examples of abrasive tools made with the use of currently leading AM methods and their impact on the obtained machining results were indicated. The analyzed research works indicate the great potential and usefulness of the new constructions of the abrasive tools made by incremental technologies. Furthermore, the potential and limitations of currently used 3D printed abrasive tools, as well as the directions of their further development are indicated.

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