Effects of Blade Tip Geometry on Cutting Characteristics of Lead Alloy Sheet Subjected to Wedge Indentation

Effects of Blade Tip Geometry on Cutting Characteristics of Lead Alloy Sheet Subjected to Wedge Indentation

This research work was carried out aiming to investigate the cutting characteristics of a soft metallic sheet subjected to the wedge blade indentation. The indentation of a lead alloy worksheet was conducted, experimentally using a center bevel blade in order to reveal the experimental background of...

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Veröffentlicht in:Key engineering materials 2016-11, Vol.719, p.137-141
Hauptverfasser: Mitsomwang, Pusit, Natpukkana, Pirapa, Borrisutthekul, Rattana, Nagasawa, Shigeru
Format: Artikel
Sprache:eng
Schlagworte:
Angles (geometry)
Bevels
Blades (cutting)
Cutting
Cutting parameters
Indentation
Lead base alloys
Wedges
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Natpukkana, Pirapa
Borrisutthekul, Rattana
Nagasawa, Shigeru
description This research work was carried out aiming to investigate the cutting characteristics of a soft metallic sheet subjected to the wedge blade indentation. The indentation of a lead alloy worksheet was conducted, experimentally using a center bevel blade in order to reveal the experimental background of the indentation. In addition, to investigate the effects of the blade tip geometry, the bevel angle of the wedge blade, on the cutting characteristics of the worksheet, the finite element method (FEM) analysis was conducted. By varying the bevel angle, the critical levels of stresses for the necking of the worksheet were detected. Also, it was found that the bevel angle affected the cutting load resistance, the necking of the worksheet and the final feature of the wedged edge.
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subjects Angles (geometry)
Bevels
Blades (cutting)
Cutting
Cutting parameters
Indentation
Lead base alloys
Wedges
title Effects of Blade Tip Geometry on Cutting Characteristics of Lead Alloy Sheet Subjected to Wedge Indentation
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