electric pulse modulation metal fabrication

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In the modern manufacturing industry, metals are widely used for various parts and products. The formability of metal is closely associated with the forming method [1, 2].Hot forming is widely . Here, authors demonstrate an electric pulse-tuned piezotronic effect in Ag/HfO2/n-ZnO junction, enabling reversible and accurate regulation of barrier height and piezotronic . Here, we demonstrate an in situ electrically driven tunable metasurface by harnessing the full potential of a PCM alloy, Ge 2 Sb 2 Te 5 (GST), to realize non-volatile, . In this paper, the effect of electric pulse treatment (EPT) on the mechanical performance of the 7075 aluminum (Al) alloy was studied and the correlations between the .

Here, we report a strategy of tuning piezotronic effect (interface barrier and transport controlled by piezoelectric polarization) reversibly and accurately by electric pulse. With appropriate electropulsing parameters, the microstructure of steels can be manipulated towards a state that possesses favourable physical, mechanical and chemical .

To develop the new pulse width modulation (PWM) of step pulse waveform with best parametric combinations, the effects of different parameters have been investigated . In that regard, an electric-pulse-assisted (EPA) stamping method is developed in this research, in which sheet metals are first stamped and electric pulses are subsequently . A method is proposed for the modulation of electrical pathways in the cracks of stretchable electrodes using liquid metals, based on which ultra-high sensitivity (> 10 8) and . Researchers at Saarland University have developed a non-contact method for transforming 3D printed metal parts into high-precision technical components for specialist .

In the modern manufacturing industry, metals are widely used for various parts and products. The formability of metal is closely associated with the forming method [1, 2].Hot forming is widely used to decrease the deformation resistance of materials and ensure good quality of products [].A given combination of thermos-dynamic parameters leads to a specific microstructure evolution of . Here, authors demonstrate an electric pulse-tuned piezotronic effect in Ag/HfO2/n-ZnO junction, enabling reversible and accurate regulation of barrier height and piezotronic modification. Here, we demonstrate an in situ electrically driven tunable metasurface by harnessing the full potential of a PCM alloy, Ge 2 Sb 2 Te 5 (GST), to realize non-volatile, reversible, multilevel,. In this paper, the effect of electric pulse treatment (EPT) on the mechanical performance of the 7075 aluminum (Al) alloy was studied and the correlations between the frequency of the EPT and the microstructure, tensile property and .

Here, we report a strategy of tuning piezotronic effect (interface barrier and transport controlled by piezoelectric polarization) reversibly and accurately by electric pulse.

Using electric pulses to finely post

The effect of the electric pulse treatment on the microstructure

With appropriate electropulsing parameters, the microstructure of steels can be manipulated towards a state that possesses favourable physical, mechanical and chemical properties. To develop the new pulse width modulation (PWM) of step pulse waveform with best parametric combinations, the effects of different parameters have been investigated initially. Furthermore, for better understanding, the PWM technique is compared with a non-PWM method.

In that regard, an electric-pulse-assisted (EPA) stamping method is developed in this research, in which sheet metals are first stamped and electric pulses are subsequently introduced to reduce the springback of formed micro channels.

A method is proposed for the modulation of electrical pathways in the cracks of stretchable electrodes using liquid metals, based on which ultra-high sensitivity (> 10 8) and large-range (> 100%) strain sensors are realised.. A secondary modulation of the response (or performance) of the sensor is proposed, allowing not only electrical modulation by liquid metal . Researchers at Saarland University have developed a non-contact method for transforming 3D printed metal parts into high-precision technical components for specialist applications.In the modern manufacturing industry, metals are widely used for various parts and products. The formability of metal is closely associated with the forming method [1, 2].Hot forming is widely used to decrease the deformation resistance of materials and ensure good quality of products [].A given combination of thermos-dynamic parameters leads to a specific microstructure evolution of .

Here, authors demonstrate an electric pulse-tuned piezotronic effect in Ag/HfO2/n-ZnO junction, enabling reversible and accurate regulation of barrier height and piezotronic modification. Here, we demonstrate an in situ electrically driven tunable metasurface by harnessing the full potential of a PCM alloy, Ge 2 Sb 2 Te 5 (GST), to realize non-volatile, reversible, multilevel,. In this paper, the effect of electric pulse treatment (EPT) on the mechanical performance of the 7075 aluminum (Al) alloy was studied and the correlations between the frequency of the EPT and the microstructure, tensile property and .

Here, we report a strategy of tuning piezotronic effect (interface barrier and transport controlled by piezoelectric polarization) reversibly and accurately by electric pulse. With appropriate electropulsing parameters, the microstructure of steels can be manipulated towards a state that possesses favourable physical, mechanical and chemical properties. To develop the new pulse width modulation (PWM) of step pulse waveform with best parametric combinations, the effects of different parameters have been investigated initially. Furthermore, for better understanding, the PWM technique is compared with a non-PWM method.

In that regard, an electric-pulse-assisted (EPA) stamping method is developed in this research, in which sheet metals are first stamped and electric pulses are subsequently introduced to reduce the springback of formed micro channels. A method is proposed for the modulation of electrical pathways in the cracks of stretchable electrodes using liquid metals, based on which ultra-high sensitivity (> 10 8) and large-range (> 100%) strain sensors are realised.. A secondary modulation of the response (or performance) of the sensor is proposed, allowing not only electrical modulation by liquid metal .

Performance improvement of electrochemical micromachining

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electric pulse modulation metal fabrication|Using electric pulses to finely post

electric pulse modulation metal fabrication|Using electric pulses to finely post.

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