2022
DOI: 10.3390/machines10070543
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Theoretical Assessment of the Role of Bond Material during Grinding of Superhard Materials with Diamond Wheels

Abstract: The grinding of superhard materials poses an important challenge to manufacturing industry, due to the increased wear and the high possibility of fracture of both the wheel and workpiece material. Various strategies have been proposed for effective grinding of these materials, but further research is still required, especially in cases in which the hardness of the wheel and the workpiece are almost equal. In this study, the role of the bond of a diamond grinding wheel during the processing of superhard materia… Show more

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Cited by 7 publications
(1 citation statement)
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“…Sabri et al also proved, that the end surface quality and topography of the machined parts can be advantageously modified by the proper change of the grain size [8]. Kundrák et al also proved in abrasive machining, that a higher elastic modulus of the bond can increase the strength of grain retention, which provides an increase in grinding performance and a reduction in the specific consumption of grains [9]. It is also important to help the self-sharpening of the abrasive tools by revealing new grains on the working surface [10].…”
Section: Introductionmentioning
confidence: 99%
“…Sabri et al also proved, that the end surface quality and topography of the machined parts can be advantageously modified by the proper change of the grain size [8]. Kundrák et al also proved in abrasive machining, that a higher elastic modulus of the bond can increase the strength of grain retention, which provides an increase in grinding performance and a reduction in the specific consumption of grains [9]. It is also important to help the self-sharpening of the abrasive tools by revealing new grains on the working surface [10].…”
Section: Introductionmentioning
confidence: 99%