Your search keyword '"Ying-Ying Zuo"' showing total 5 results

1. Effects of nano-HMX on the properties of RDX-CMDB propellant: Higher energy and lower sensitivity

Author

Han, Gao, Xiao-ting, Hou, Xiang, Ke, Jie, Liu, Gazi, Hao, Lei, Xiao, Teng, Chen, Ying-ying, Zuo, and Wei, Jiang

Published

2017

2. A novel non-keyhole friction stir welding process

Author

Zhen Shang, Shude Ji, Peng Gong, Ying-Ying Zuo, and De-Jun Yan

Subjects

Materials science, Strategy and Management, Ultimate tensile strength, Base (geometry), Fracture (geology), Friction stir welding, Management Science and Operations Research, Composite material, Joint (geology), Keyhole, Industrial and Manufacturing Engineering, Clamping, Material flow

Abstract

Keyhole is a defect which seriously restrains the industrial application of friction stir welding (FSW) technique. In this study, a new technique of non-keyhole friction stir welding (N-KFSW) was proposed, which could eliminate the keyhole during the in-situ welding process. Experiments were performed using a 6 mm thick 6061-T6 aluminum alloy plate under different rotating velocities. Due to the unexpected consumption of rotating sleeve during N-KFSW, the N-KFSW tool was simplified to a system consisting of a hollow sleeve and a clamping ring based on the working principle of N-KFSW. Compared with the solid sleeve, this hollow sleeve promoted the material flow below the sleeve. Therefore, the depth of the sleeve-stirring zone (SSZ) was equal to the thickness of the plate when the plunging depth was only 4.2 mm. The SSZ was divided into the sleeve directly affected zone (SDAZ) and the sleeve indirectly affected zone (SIAZ). The material in the SIAZ was transferred by the indirectly stirring effect of hollow sleeve, so the butt interface in the SIAZ was distributed as the S-shape line at the bottom of the SIAZ. The maximum tensile strength of 217.3 MPa was obtained at 1200 rpm, which was 71.5% of that of the base material. The height of the S-shape line shrunk with the rotating velocity increasing, and then governed that the fracture position of the joint transferred to the HAZ from the SSZ. The fracture surface morphology exhibited typical ductile fracture.

Published

2022

3. Non-keyhole Friction Stir Welding for 6061-T6 Aluminum Alloy

Author

Shude Ji, Deng-Chang Li, Zhen Shang, De-Jun Yan, Peng Gong, and Ying-Ying Zuo

Subjects

Materials science, Metals and Alloys, Welding, Penetration (firestop), Industrial and Manufacturing Engineering, law.invention, law, Ultimate tensile strength, Fracture (geology), Butt joint, Friction stir welding, Composite material, Keyhole, Joint (geology)

Abstract

A novel non-keyhole friction stir welding technique was proposed to weld the butt joint of 6061-T6 aluminum alloy with the thickness of 6 mm. A sound joint was obtained by this technique, simultaneously eliminating the flash, shoulder mark and keyhole defects. The sleeve directly affected zone (SDAZ) and the sleeve indirectly affected zone (SIAZ) were divided into the joint according to the plunging position of the hollow sleeve. The lack of root penetration defect was avoided when the plunging depth of the hollow sleeve was only 4.2 mm, because the hollow part inside the sleeve improved the material flow below the sleeve. An S-shaped line was left at the SIAZ, and the height of it had the minimum value of 1.47 mm at 20 mm/min. Whether the failure location of the joint was in SIAZ/SDAZ or the heat-affected zone (HAZ) depended on the height and bonding strength of the S-shaped line. The joint fracture location changed from the SIAZ/SDAZ at 35 mm/min to the HAZ at 20 and 30 mm/min. The maximum tensile strength of 224.3 MPa was obtained at 30 mm/min which was 73.7% of that of the base material. The fracture surface morphology exhibited the typical ductile fracture.

Published

2021

4. Radial Additive Friction Stir Repairing of Mechanical Hole Out of Dimension Tolerance of AZ31 Magnesium Alloy Assisted by Stationary Shoulder: Process and Mechanical Properties

Author

Hua Liu, Shude Ji, Bao-Sheng Wu, Ying-Ying Zuo, and Peng Gong

Subjects

010302 applied physics, Materials science, Metals and Alloys, Process (computing), 02 engineering and technology, 021001 nanoscience & nanotechnology, Microstructure, 01 natural sciences, Industrial and Manufacturing Engineering, Shear (sheet metal), Dimension (vector space), 0103 physical sciences, Ultimate tensile strength, Metallic materials, Process window, Composite material, Magnesium alloy, 0210 nano-technology

Abstract

Radial additive friction stir repairing (R-AFSR) assisted by stationary shoulder was put forward in the present study, which can be employed to repair the mechanical hole out of dimension tolerance of AZ31 magnesium alloy sheet. The results show that the stationary shoulder has sealed-barrier, heat-sink and extra-forging effects. The heat-sink effect improves the microstructure uniformity along the stir zone (SZ) thickness and the surface appearance of repaired hole, and the sealed-barrier and extra-forging effects eliminate the super-fine grain band in the SZ. Therefore, these three effects improve the formation quality of repaired region, thereby enhancing the mechanical properties of repaired mechanical hole compared with conventional R-AFSR. The tensile and compressive shear strengths of the repaired hole by stationary shoulder R-AFSR both increase first and then decrease when the rotating speed changes from 1200 to 1800 rpm, and these maximum values, respectively, reach 190 ± 3 MPa and 64.5 ± 2 MPa at 1400 rpm. The addition of stationary shoulder during R-AFSR can obtain a higher-quality repaired hole and broaden the repairing process window.

Published

2021

5. Ultrasound-assisted friction stir transient liquid phase spot welded dissimilar copper-aluminum joint

Author

Zan Lv, Zhongwei Ma, Ying-Ying Zuo, Q.H. Li, Shude Ji, and Peng Gong

Subjects

musculoskeletal diseases, 0209 industrial biotechnology, Materials science, business.industry, Strategy and Management, Ultrasound, chemistry.chemical_element, 02 engineering and technology, Welding, Management Science and Operations Research, 021001 nanoscience & nanotechnology, Microstructure, Industrial and Manufacturing Engineering, law.invention, 020901 industrial engineering & automation, chemistry, law, Aluminium, Fracture (geology), Composite material, 0210 nano-technology, business, Joint (geology), Spot welding, Eutectic system

Abstract

Ultrasound assistance was applied to friction stir transient liquid phase spot welding (FSTLPSW) to attain a high-quality dissimilar copper-aluminum joint in this study. Different ultrasound-assisted times were selected for comparing with the conventional condition without ultrasound. The interfacial microstructure evolution of conventional joint was analyzed combined with the measured temperature cycle. The ultrasound assistance improved the joint quality by regulating the interfacial microstructure. Cavitation erosion, broken IMC particles and thicker eutectic layer appeared in ultrasound-assisted joint. The highest tensile shear strength of 7.38 kN was obtained under the ultrasound-assisted time of 60 s which was 43.1 % higher than that of the conventional joint. The fracture location transferred from IMC layers to eutectic layer under the ultrasound assistance.

Published

2021