Rolf Rinderknecht scite author profile

Rolf Rinderknecht

2Publications

3Citation Statements Received

0Citation Statements Given

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Furtwangen University

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Optimizing the Grinding Process through Reduction of the Loading of Grinding Tool by Infiltration

Azarhoushang

Rinderknecht

Vesali

et al. 2016

AMR

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The loading of the grinding wheel and adhesion of the workpiece material to the cutting edges of the grinding tool are among the main reasons which limit the process efficiency when grinding ductile materials. The micro topography of the grinding tool changes drastically as a result of loading. Higher grinding forces and temperatures, poorer surface quality and process accuracy are the consequences of the adhesion of the workpiece material to the grinding tool surface. A novel and promising technique to reduce the possibility of loading and adhesion in the grinding process is the infiltrating of the grinding tool. This study describes the results of infiltration of vitrified bonded conventional grinding wheels with graphite in the surface grinding process. The effects of infiltration have been studied for the first time on various grinding wheels with different grain materials, grit sizes, porosity and hardness. Two different types of steel which are very popular in the automobile industry, 100Cr6 and 16MnCr5, were chosen as the workpiece material by the surface grinding experiments. The selected cutting parameters cover a wide range of the practical surface grinding processes which are utilized generally in the industry. It has been experimentally shown that the type of infiltration plays an important role in reducing the loading of the wheel. Better surface quality and longer dressing intervals are the main results of the infiltration of the grinding tools.

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Optimizing the Grinding Process through Reduction of the Loading of Grinding Tool by Infiltration

Azarhoushang¹,

Rinderknecht²,

Vesali³

et al. 2015

AMR

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