Yuhang Feng scite author profile

Yuhang Feng

5Publications

1Citation Statement Received

20Citation Statements Given

How they've been cited

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125

Affiliations

Chongqing University of Technology, Shaanxi University of Science and Technology, Southwest Petroleum University

Publications

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Preparation Technology of Stretchable Electrode Based on Laser Cutting

et al. 2022

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Wearable electronics have showed their profound impact in military, sports, medical and other fields, but their large-scale applications are still limited due to high manufacturing costs. As an advanced micro-fabrication process, laser processing technology has the advantages of high speed, high flexibility, strong controllability, environmental protection and non-contact in preparing micro-nano structures of wearable electronics. In this paper, a 355 nm ultraviolet laser was used to pattern the copper foil pasted on the flexible substrate, and the interconnection electrodes and wires were constructed. A processing method of multi-parallel line laser cutting and high-speed laser scanning is proposed to separate and assist in peeling off excess copper foil. The process parameters are optimized. A stretchable 3 × 3 light-emitting diode (LED) array was prepared and its performance was tested. The results showed that the LED array can work normally under the conditions of folding, bending and stretching, and the stretch rate can reach more than 50%. A stretchable temperature measurement circuit that can be attached to a curved surface was further fabricated, which proves the feasibility of this process in the fabrication of small-scale flexible wearable electronic devices. Requiring no wet etching or masking process, the proposed process is an efficient, simple and low-cost method for the fabrication of stretchable circuits.

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Self-Alignment Capillary Gripper for Microfiber Manipulation

Song

Chang

Feng

et al. 2023

IEEE/ASME Trans. Mechatron.

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Effect of oxidation time on the structure and properties of Ti–25Nb–3Zr–2Sn–3Mo titanium alloy microarc oxide film layer

Yang

Wang

et al. 2023

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In order to improve various properties of medical titanium alloys, Ti–3Zr–2Sn–3Mo–25Nb titanium alloy specimens were subjected to microarc oxidation (BMAO) in 0.1 mol/l sodium tetraborate electrolyte to cover the substrate with a micro-nano double-graded structured coating. The effect of oxidation time on the microstructure, physical phase, hardness, corrosion resistance, and wettability of the micro-nano film layer was investigated. The results show that the microporous size of the film increases with the increase in oxidation time, and the hardness of the BMAO film increases with the increase in oxidation time; the corrosion resistance of the BMAO film is better than that of the substrate, and the self-corrosion potential is the largest at 14 min of oxidation time, reaching −0.1349 V, which is 65% higher than that of the substrate, and the self-corrosion current is the lowest, at 1.1376 × 10−9 A cm−2, which is one order of magnitude lower than that of the substrate; the micro-nano film layer exhibits superhydrophilicity, which increases and then decreases with time, and the contact angle is the smallest at 6 min of oxidation time, 4.4°, which is one order of magnitude lower than that of the substrate, 73.75°.

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Low-Cost Laser Micromachining Super Hydrophilic–Super Hydrophobic Microgrooves for Robotic Capillary Micromanipulation of Microfibers

et al. 2021

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Capillary self-alignment technique can achieve highly accurate and fast alignment of micro components. Capillary self-alignment technique relies on the confinement of liquid droplets at receptor sites where hydrophobic–hydrophilic patterns are widely used. This paper reports a low-cost microsecond pulse laser micromachining method for fabrication of super hydrophilic–super hydrophobic grooves as receptor sites for capillary self-alignment of microfibers. We investigated the influence of major manufacturing parameters on groove sizes and wetting properties. The effects of the width (20 µm–100 µm) and depth (8 µm–36 µm) of the groove on the volume of water droplet contained inside the groove were also investigated. We show that by altering scanning speed, using a de-focused laser beam, we can modify the wetting properties of the microgrooves from 10° to 120° in terms of the contact angle. We demonstrated that different types of microfibers including natural and artificial microfibers can self-align to the size matching super hydrophilic–super hydrophobic microgrooves. The results show that super hydrophilic–super hydrophobic microgrooves have great potential in microfiber micromanipulation applications such as natural microfiber categorization, fiber-based microsensor construction, and fiber-enforced material development.

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Investigation on the Morphology and Formation Mechanism of Porosity in Different Heat Source Regions of Nickel-Based Alloy Laser Hybrid Welding

Li²,

Feng

et al. 2023

J. of Materi Eng and Perform

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Yuhang Feng

Preparation Technology of Stretchable Electrode Based on Laser Cutting

Self-Alignment Capillary Gripper for Microfiber Manipulation

Effect of oxidation time on the structure and properties of Ti–25Nb–3Zr–2Sn–3Mo titanium alloy microarc oxide film layer

Low-Cost Laser Micromachining Super Hydrophilic–Super Hydrophobic Microgrooves for Robotic Capillary Micromanipulation of Microfibers

Investigation on the Morphology and Formation Mechanism of Porosity in Different Heat Source Regions of Nickel-Based Alloy Laser Hybrid Welding

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