Research of Grinding Material Tools by Modern Grinding Wheels

Jiří Čop; Imrich Lukovics

doi:10.4028/www.scientific.net/KEM.581.211

Paper Titles

Precision Milling of Hardened Steel with CBN Tools
p.182

Hardened Steel Turning by Means of Modern CBN Cutting Tools
p.188

Study of Elastic Deformations in Hard Turning
p.194

Detection of Surface Damage after Grinding of Large Case–Hardened Bearing Rings
p.205

Research of Grinding Material Tools by Modern Grinding Wheels
p.211

Simulation of Grinding Process of Polycrystalline Superhard Materials
p.217

Technological Method for the Finishing Process of Fusible Alloy
p.224

Norton Vitrium³ – Revolutionary Grain Adhesion
p.229

Burr Formation in Metal Cutting Operations and some Deburring Methods
p.235

HomeKey Engineering MaterialsKey Engineering Materials Vol. 581Research of Grinding Material Tools by Modern...

Research of Grinding Material Tools by Modern Grinding Wheels

Abstract:

This research paper focuses on grinding of materials used for tools (100Cr6 (CSN 4 14109), X210Cr12 ( CSN 4 19436) and epoxy resin) using grinding wheels from cubic boron nitride and diamond. The disadvantage of grinding of difficult-to-machine materials is higher wear of grinding wheels. The modern grinding wheels are able to achieve high accuracy of dimensions and high surface quality with a smaller wear of grinding wheels then grinding wheels from conventional materials. Correctly selected technological conditions are one of the most important matters to achieve the required surface quality. The main aim of this research is to determine the influence of technological conditions to quality of surface after planar grinding. The research determines the influence of the grain type of grinding wheels, feed rate and cutting depth on the quality of functional surfaces.

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Periodical:

Key Engineering Materials (Volume 581)

Pages:

211-216

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.581.211

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Online since:

October 2013

Authors:

Jiří Čop, Imrich Lukovics

Keywords:

Cubic Boron Nitride, Diamond, Grinding, Surface Quality

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References

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