Effects of grit size on abrasion with coated abrasives

Date, Shigeyuki; Malkin, S.

doi:10.1016/0043-1648(76)90100-9

Cited by 63 publications

(20 citation statements)

References 6 publications

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“…(2) Belt finishing performances are also deeply influenced by the characteristics of the abrasive film, in particular, by the size and the material of the grits [3,15]. Generally, higher grits size leads to large material removing, while, when elevated precision is requested, a smaller size of the grits is used.…”

Section: Belt Finishing Process: Tracking Difficultiesmentioning

confidence: 99%

Toward physical description of form and finish performance in dry belt finishing process by a tribo-energetic approach

Mansori

Sura

Ghidossi

et al. 2007

Journal of Materials Processing Technology

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Section: Belt Finishing Process: Tracking Difficultiesmentioning

confidence: 99%

Toward physical description of form and finish performance in dry belt finishing process by a tribo-energetic approach

Mansori

Sura

Ghidossi

et al. 2007

Journal of Materials Processing Technology

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“…Unfortunately, their results could not be extrapolated to industrial applications because the operation conditions are too different. In the literature, only some general indication concerning the most influent process variables was found [Visser and Lokken, 1981;Shibata, et al, 1979;Date and Malkin, 1976]: the belt oscillation frequency [Shaw, 1996;Puthanangady and Malkin, 1995] and the cycle-time [Schibish and Friedrich, 2001] can be considered the most important [Tonshoff and Degenhartdt, 1982;Suzuki et al, 1992;Hashimoto, 1996]. However, the correlations between these process variables and the characteristics of the superfinished products are not yet predictable.…”

Section: Introductionmentioning

confidence: 98%

An Energy Analysis of Belt Polishing Process and Its Applications to Time Cycle and Tracking Effects

Sura¹,

Mansori²,

Ghidossi³

et al. 2007

Machining Science and Technology

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& Belt polishing is a fine machining process widely used to improve surface texture and to increase wear resistance and fatigue life. Despite the basics of this manufacturing process are not yet well understood, the cycle-time and the belt oscillations frequency are considered as fundamental process variables. In this article, their effects on the surface characterization and on the form aspects are investigated in connection with the principal physical mechanisms activated during the superfinishing operations (cutting, ploughing and sliding). With this aim, an energy approach of the belt polishing process, coupled with SEM observations of the abrasive belt, is introduced. Two belt polishing energetic regimes are identified and then discussed.

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“…In particular, the morphology of abrasive grains has been found to be deeply dependent on the workpiece/tool contact conditions [1][2][3][4][5]. Since chip size is very small, grinding mechanics are easily affected by variations in geometry and properties from grit to grit.…”

Section: Introductionmentioning

confidence: 99%

Abrasiveness properties assessment of coated abrasives for precision belt grinding

Mezghani

Mansori

2008

Surface and Coatings Technology

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Effects of grit size on abrasion with coated abrasives

Cited by 63 publications

References 6 publications

Toward physical description of form and finish performance in dry belt finishing process by a tribo-energetic approach

Toward physical description of form and finish performance in dry belt finishing process by a tribo-energetic approach

An Energy Analysis of Belt Polishing Process and Its Applications to Time Cycle and Tracking Effects

Abrasiveness properties assessment of coated abrasives for precision belt grinding

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