Philipp Tröber scite author profile

The thermoelectric phenomenon can be used for a wide application spectrum. Typically, the Seebeck effect of metallic materials is used for temperature measurement in common thermocouples. However, there is also a high potential for adapting the effect in nondestructive testing due to a high sensitivity of the thermoelectric properties to a variety of material characteristics.Different studies point out an influence of plastic deformations on the thermoelectric behavior of metals, but a detailed and quantitative analysis and description is not provided yet. There is an increasing interest in detecting the changes of properties by nondestructive characterization of plastically deformed materials. Especially in metal forming, the knowledge about the correlation between the degree of deformation and the thermoelectric behavior can help to check formed metal parts. On that account, the influence of plastic deformations on the thermoelectric behavior, in particular the Seebeck coefficient, of four steel alloys is introduced in this paper.An apparatus based on the integral measuring method was built up to measure the relative Seebeck coefficient to a reference material at different temperature gradients and for several degrees of plastic deformation. Well defined values of plastic deformation are realized by cold rolling. With this compressive forming technology a logarithmic deformation φ up to 2.11 was set for all steel alloys. Besides a high degree of deformation, a uniform strain over the sample thickness can be obtained by rolling.With increasing plastic deformation a significant change of the relative Seebeck coefficient can be observed in a defined temperature range for all investigated steels. The plastic deformation is accompanied by an increase of dislocation density into the lattice structure of the metal. These line defects provoke the formation of new scattering centers and thus the electron motion is disturbed. By the combination of metallurgical examinations and measurements of micro hardness, the relation between the thermoelectric behavior and the plastic deformation of steels can be clearly illustrated.

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On the correlation between thermoelectricity and adhesive tool wear during blanking of aluminum sheets

Tröber

Weiß

Kopp

et al. 2017

International Journal of Machine Tools and Manufacture

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On the influence of Seebeck coefficients on adhesive tool wear during sheet metal processing

Tröber

Demmel²,

Hoffmann

et al. 2017

CIRP Annals

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Philipp Tröber

Impact of Punching Parameter Variations on Magnetic Properties of Nongrain-Oriented Electrical Steel

Neutron grating interferometry investigation of punching-related local magnetic property deteriorations in electrical steels

Characterization of the Thermoelectric Behavior of Plastically Deformed Steels by Means of Relative Seebeck Coefficient

On the correlation between thermoelectricity and adhesive tool wear during blanking of aluminum sheets

On the influence of Seebeck coefficients on adhesive tool wear during sheet metal processing

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