difference between flank wear and crater wear
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It is a term often associated with tipped tools, tool bits, or drill bits that are used with machine tools. Types of wear include: flank wear in which the portion of the tool in contact with the finished part erodes. ... crater wear in which contact with chips erodes the rake face.
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Flank wear: It is due to It is due to work hardening. Flank wear occurs at the tool flanks, where it contacts with the finished surface, as a result of abrasion and adhesion wear. The cutting force increases with flank wear. It affects the great extent of mechanics of cutting. The flank wear region is known as wear land and is measured by the width of wear land
Crater wear:
Crater wear happens on the tool face at a short distance from cutting edge by the action of chip flow over the face at very high temperature. The crater wear is mainly due to diffusion and abrasion. They are commonly observed where the continuous chip is formed (usually in the ductile material). In the brittle material, the chip formation in the shape of a small segment, this loosely fragmented chip has low abrasive action on the face as compared to the continuous chip formation
MARK BRAINLIEST PLZZ
Flank wear: It is due to It is due to work hardening. Flank wear occurs at the tool flanks, where it contacts with the finished surface, as a result of abrasion and adhesion wear. The cutting force increases with flank wear. It affects the great extent of mechanics of cutting. The flank wear region is known as wear land and is measured by the width of wear land
Crater wear:
Crater wear happens on the tool face at a short distance from cutting edge by the action of chip flow over the face at very high temperature. The crater wear is mainly due to diffusion and abrasion. They are commonly observed where the continuous chip is formed (usually in the ductile material). In the brittle material, the chip formation in the shape of a small segment, this loosely fragmented chip has low abrasive action on the face as compared to the continuous chip formation
MARK BRAINLIEST PLZZ
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