Your search keyword '"Xinqi Yang"' showing total 5 results

1. Experimental study of friction taper plug welding for low alloy structure steel: Welding process, defects, microstructures and mechanical properties.

Author

Lei Cui, Xinqi Yang, Dongpo Wang, Jun Cao, and Wei Xu

Subjects

*FRICTION welding, *METAL microstructure, *STEEL alloys, *POINT defects, *MECHANICAL properties of metals, *PARAMETER estimation, *PHASE transitions

Abstract

A research investigation has been undertaken to identify the various stages and variation of welding parameters in friction taper plug welding (FTPW) process and to explore their effects on the performance and properties of the welds. According to the variation of axial force, the overall FTPW process is divided into feeding phase, pressing phase, welding phase, and forging phase. The rotating speed, welding force, and burn-off rate remain nearly constant in welding phase. However, the torque peaks in welding phase when after few seconds of welding force setting is reached. Rising the welding force would increase the peak torque, welding torque, and burn-off rate, but decrease the welding time. When improper welding parameter is used lack of bonding and incomplete filling defects would form within the weld. The microstructure of the weld metal is consist of retained austenite, pearlite, and various Widmanstätten ferrite. In heat affect zone, it is mainly of lathy upper bainite. Defect free welds exhibit favorable tensile properties of which 548.3MPa tensile strength and 27.5% elongation that equal to the base metal could be found. [ABSTRACT FROM AUTHOR]

Published

2014

2. Friction taper plug welding for S355 steel in underwater wet conditions: Welding performance, microstructures and mechanical properties.

Author

Lei Cui, Xinqi Yang, Dongpo Wang, Xiaopeng Hou, Jun Cao, and Wei Xu

Subjects

*FRICTION materials, *WELDING, *STAINLESS steel, *MECHANICAL behavior of materials, *FERRITES, *DUCTILITY, *METALS

Abstract

The present work reports new results regarding developing the friction taper plug welding (FTPW) process in wet conditions for underwater welding and repairing solutions. In this study, the FTPW process, microstructures and mechanical properties of the weld are investigated. The main findings are as follows: defect-free FTP welds can be obtained with a 7000rpm rotational speed and an axial force of 30-50kN. In the heat-affected zone (HAZ) and the lower region of the weld metal (WM), a large volume of lath bainite and small amounts of acicular ferrite, polygonal ferrite, and martensite are observed. However, in the upper region of the WM, the microstructure mainly consists of lath martensite. The best results of ultimate tensile strength and V-notch impact energy are 500MPa and 39.5J, respectively, on the joint that was welded with a 45kN axial force. The impact failure is characterised by brittle fracture with a large area of cleavage and notably little quasi-cleavage and ductile. [ABSTRACT FROM AUTHOR]

Published

2014

3. Effect of kissing bond on fatigue behavior of friction stir welds on Al 5083 alloy.

Author

Caizhi Zhou, Xinqi Yang, and Guohong Luan

Subjects

*ALUMINUM alloys, *ALUMINUM fatigue, *WELDED joints, *WELDING, *MATERIALS science

Abstract

Fatigue properties of FS welds with a kissing bond (bonded welds) were studied by comparing the test results of bonded welds with those of sound welds. The fatigue life of bonded welds is 21∼43 times shorter than that of sound welds under the stress ratio R = 0.1, and the fatigue characteristic values of each welds have decreased from 100.24 MPa for sound welds to 65.57 MPa for bonded welds at 2 × 106 cycles. At the macroscopic level there is no evidence of failure by shear. The fatigue fracture revealed cracks initiated from the root tip of kissing bond. [ABSTRACT FROM AUTHOR]

Published

2006

4. Approximate J-estimation methods for pipes with circumferential surface cracks in welds

Author

Xinqi, Yang, Hongshan, Qin, Lixing, Huo, and Yueli, Liu

Subjects

*PIPE bending, *CRACKING of welded joints

Abstract

Approximate J-estimation methods including the effects of weld mis-match, for a circumferentially surface-cracked pipe with an internal, constant-depth and finite-length surface flaw in pure bending are developed. The methods are based on principles described by Rahman and Brust. Closed-form J-solutions in terms of elementary functions are derived from classical beam theory combined with an equivalence criterion. Several numerical examples of welded joints are presented to verify the proposed methods. [Copyright &y& Elsevier]

Published

2002

5. An empirical analysis of vulnerability information disclosure impact on patch R&D of software vendors.

Author

Qiang Xiong, Shuai Lian, Zhangying Zeng, Runxin He, Binxin Zhu, and Xinqi Yang

Subjects

*DISCLOSURE, *PROCESS capability, *SOFTWARE upgrades, *DATABASE security, *COMPUTER software industry, *INFORMATION technology security

Abstract

The vulnerability patch R&D has become an important part of information security governance. An effective collaboration with software vendors in patch R&D is of great significance to reduce the existence time of information security risks. This works aims to explore the relationship between vulnerability information disclosure and patch R&D of software vendors. The data regarding the vulnerability and software vendors is gathered from third-party vulnerability sharing platforms, including (China's national information security vulnerability database, CNNVD) and Tianyacha.com. Based on the theory of organizational information processing, linear regression model and Cox proportional risk regression model are built for appropriately addressing the research questions. The results show that the vulnerability disclosure of the third-party sharing platform can improve the patch R&D probability of software vendors. The information processing requirements, such as vulnerability information attention, vulnerability score and whether vulnerabilities are disclosed in advance accelerate the vulnerability patch R&D. The enterprise information processing capability indicators, including the industry dependence of software product customers and the staff size of software vendors accelerate the patch R&D. The number of products affected by the vulnerabilities and the number of software copyrights of software vendors have no significant impact on patch R&D. [ABSTRACT FROM AUTHOR]

Published

2023