In-situ characterization of tool temperatures using in-tool integrated thermoresistive thin-film sensors

González, Germán; Plogmeyer, Marcel; Schoop, Julius; Bräuer, Günter; Schulze, Volker

doi:10.1007/s11740-023-01186-7

Cited by 3 publications

(1 citation statement)

References 33 publications

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“…Ramesh et al [4] used a thermal camera to measure the temperature in the turning process in a titanium alloy (Ti6Al4V). Gonzalez et al [5] used thinlm sensors to measure temperature at the chip-tool interface. The objective was to obtain more accurate results at the expense of the short life of the sensors.…”

Section: Introductionmentioning

confidence: 99%

An analysis of the cutting temperature for the tapping process using the tool-workpiece thermocouple method

Macedo,

Fortes

et al. 2024

Preprint

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Temperature measurement in machining is complex, with many limitations and restrictions and these are linked to the measurement method and the process in which it will be applied. Tapping is one of the processes that imposes the most restrictions and limitations on temperature measurement methods. The chip-tool interface temperature is important data to feed numerical models and also to help in the analysis of wear problems and breakage of the cutting tap. The objective of this work is to quantify the temperatures found in tapping as a function of some process variables (cutting speed, workpiece material and cutting fluid), to understand how influential these variables are in temperature, since there are no results in the literature. for the threading process, and to show the advantages of adapting the tool-workpiece thermocouple method for the tapping process. The results show a 34% reduction in dry cutting temperature when compared to oil and emulsion conditions.

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Section: Introductionmentioning

confidence: 99%

An analysis of the cutting temperature for the tapping process using the tool-workpiece thermocouple method

Macedo,

Fortes

et al. 2024

Preprint

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Tool-integrated thin-film sensor systems for measurement of cutting forces and temperatures during machining

Plogmeyer,

González,

Pongratz

et al. 2024

Prod. Eng. Res. Devel.

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Effective in-process control mechanisms are vital for the future development of production processes and ask for reliable monitoring of process variables. For this, new tool-integrated sensor systems for measuring cutting forces and temperature for machining of hardened steel are proposed. Thin-film technology is used to apply a thermoresistive temperature sensor in the chip-workpiece contact area for the first time on industrial cutting inserts with chip breaker geometry. Complementary piezoresistive thin-film sensors based on diamond-like carbon (DLC) and manganin layers were developed and deposited on a washer. It was placed beneath the indexable insert to measure the cutting forces. Turning experiments were conducted to study sensor life and accuracy. All sensors showed an adequate lifetime for laboratory purposes. Temperature compensation methods were investigated for force measurement and results compared to forces recorded by a dynamometric platform. While temperature compensation for the DLC-based sensor needs further optimization, results of the manganin-based sensor compared well with the expected cutting forces. The manganin thin-film sensor exhibited rapid responsiveness and great reproducibility, underscoring its prospective utility for real-time monitoring of cutting forces in machining operations.

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Surface conditioning in cutting and abrasive processes

Schulze,

Aurich,

Jawahir

et al. 2024

CIRP Annals

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In-situ characterization of tool temperatures using in-tool integrated thermoresistive thin-film sensors

Cited by 3 publications

References 33 publications

An analysis of the cutting temperature for the tapping process using the tool-workpiece thermocouple method

An analysis of the cutting temperature for the tapping process using the tool-workpiece thermocouple method

Tool-integrated thin-film sensor systems for measurement of cutting forces and temperatures during machining

Surface conditioning in cutting and abrasive processes

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