Glossary entry (derived from question below)
English term or phrase:
chipping graph
Spanish translation:
grafico de fallas
Added to glossary by
Izaskun Uria
Nov 20, 2007 19:22
16 yrs ago
English term
chipping graph
English to Spanish
Tech/Engineering
Engineering: Industrial
measuring instruments
The program generates a potential map, a relative frequency and a cumulative frequency diagram and provides a chipping graph.
Proposed translations
(Spanish)
2 | grafico de fallas | Rafael Martilotti |
Proposed translations
31 mins
Selected
grafico de fallas
Por ejemplo, en un instrumento que tiene un filo, que por el uso se deteriora, ver lo siguiente:
Diamond tools become severely worn when machining Ni–P plating materials. Tool life monitoring is therefore essential to avoid the deterioration of workpiece quality. In this paper, in order to better detect tool life while the tools are in use, detailed investigations of the cutting force and acoustic emission (AE) measured during diamond turning process have been made. The results of this tool-life testing show that the cutting force and AE supply valuable information on tool failure; the dynamic component of the thrust force fluctuates chaotically when the tool dulls. This phenomenon can be detected using the 1/fβ power spectrum with a spectral exponent of β > 1. On the other hand, the AE amplitude a tends to rise just when chipping occurs on the cutting edge. This feature can be detected by the amplitude distribution spectrum, in which the AE event rate follows the power law a−m with a scaling exponent of m < 2. Therefore, we can conclude that a spectral exponent of β > 1 and a scaling exponent of m < 2 can be used as the criteria to gauge tool life, because it was observed at the end of the tool life that tool corner had become worn out and that **chipping** had occurred on the cutting edge.
Diamond tools become severely worn when machining Ni–P plating materials. Tool life monitoring is therefore essential to avoid the deterioration of workpiece quality. In this paper, in order to better detect tool life while the tools are in use, detailed investigations of the cutting force and acoustic emission (AE) measured during diamond turning process have been made. The results of this tool-life testing show that the cutting force and AE supply valuable information on tool failure; the dynamic component of the thrust force fluctuates chaotically when the tool dulls. This phenomenon can be detected using the 1/fβ power spectrum with a spectral exponent of β > 1. On the other hand, the AE amplitude a tends to rise just when chipping occurs on the cutting edge. This feature can be detected by the amplitude distribution spectrum, in which the AE event rate follows the power law a−m with a scaling exponent of m < 2. Therefore, we can conclude that a spectral exponent of β > 1 and a scaling exponent of m < 2 can be used as the criteria to gauge tool life, because it was observed at the end of the tool life that tool corner had become worn out and that **chipping** had occurred on the cutting edge.
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Comment: "Muchas gracias por la explicación."
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