Study on liquid-solid jet erosion characteristics of 316L stainless steel

The essence of erosion is the dynamic damage and material loss process of a material caused by particle impact. The failure mechanism of erosion is the result of the interaction of multiphase flow, particle characteristics, material properties, particle impact process, and other factors. This paper...

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Published in	Journal of mechanical science and technology Vol. 37; no. 4; pp. 1871 - 1882
Main Authors	Wang, Guan, Gao, Qianfeng, Kou, Linyuan, Zhang, Pei, Wang, Wenhui, Deng, Jianfei, Zhu, Xuejun
Format	Journal Article
Language	English
Published	Seoul Korean Society of Mechanical Engineers 01.04.2023 Springer Nature B.V 대한기계학회
Subjects	Austenitic stainless steels Control Dynamical Systems Engineering Erosion mechanisms Erosion rates Failure mechanisms Failure prevention Impact damage Industrial and Production Engineering Kinematics Kinetic energy Material properties Mechanical Engineering Multiphase flow Numerical methods Original Article Particle impact Plowing Potential energy Stainless steel Two phase flow Vibration 기계공학 Erosion angle Numerical simulation 316L stainless steel Multiphase flow characteristics Erosion mechanism
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Abstract	The essence of erosion is the dynamic damage and material loss process of a material caused by particle impact. The failure mechanism of erosion is the result of the interaction of multiphase flow, particle characteristics, material properties, particle impact process, and other factors. This paper employs experimental and numerical simulation methods to investigate the erosion behavior of a solid-liquid two-phase flow of 316L stainless steel jet from the angle of erosion, to explain the erosion behavior from both macroscopic and microscopic perspectives. The results discovered that the kinetic energy of the fluid is converted into pressure potential energy, which changes the kinematic characteristics of the particles and influences how they erode. The particles erode the target material by plowing and impacting at various erosion angles, and the erosion rate exhibits an increasing-decreasing-increasing tendency as the erosion angle increases, the 45° corresponds to the maximum erosion rate. Due to the particles to harden the target surface, the erosion effect is diminished in the time dimension. Comparing to high erosion angles, the reduction rate of the erosion rate in the late experiment stage is small for slow erosion angles. In the last 3 hours of the experiment, the total erosion of 316L stainless steel at 90° erosion angle was only 35 %. This provides a theoretical foundation for failure prevention in transport components containing solid particles.
AbstractList	The essence of erosion is the dynamic damage and material loss process of a material caused by particle impact. The failure mechanism of erosion is the result of the interaction of multiphase flow, particle characteristics, material properties, particle impact process, and other factors. This paper employs experimental and numerical simulation methods to investigate the erosion behavior of a solid-liquid two-phase flow of 316L stainless steel jet from the angle of erosion, to explain the erosion behavior from both macroscopic and microscopic perspectives. The results discovered that the kinetic energy of the fluid is converted into pressure potential energy, which changes the kinematic characteristics of the particles and influences how they erode. The particles erode the target material by plowing and impacting at various erosion angles, and the erosion rate exhibits an increasing-decreasing-increasing tendency as the erosion angle increases, the 45° corresponds to the maximum erosion rate. Due to the particles to harden the target surface, the erosion effect is diminished in the time dimension. Comparing to high erosion angles, the reduction rate of the erosion rate in the late experiment stage is small for slow erosion angles. In the last 3 hours of the experiment, the total erosion of 316L stainless steel at 90° erosion angle was only 35 %. This provides a theoretical foundation for failure prevention in transport components containing solid particles. The essence of erosion is the dynamic damage and material loss process of a material caused by particle impact. The failure mechanism of erosion is the result of the interaction of multiphase flow, particle characteristics, material properties, particle impact process, and other factors. This paper employs experimental and numerical simulation methods to investigate the erosion behavior of a solid-liquid two-phase flow of 316L stainless steel jet from the angle of erosion, to explain the erosion behavior from both macroscopic and microscopic perspectives. The results discovered that the kinetic energy of the fluid is converted into pressure potential energy, which changes the kinematic characteristics of the particles and influences how they erode. The particles erode the target material by plowing and impacting at various erosion angles, and the erosion rate exhibits an increasing-decreasing-increasing tendency as the erosion angle increases, the 45° corresponds to the maximum erosion rate. Due to the particles to harden the target surface, the erosion effect is diminished in the time dimension. Comparing to high erosion angles, the reduction rate of the erosion rate in the late experiment stage is small for slow erosion angles. In the last 3 hours of the experiment, the total erosion of 316L stainless steel at 90° erosion angle was only 35 %. This provides a theoretical foundation for failure prevention in transport components containing solid particles. KCI Citation Count: 0
Author	Wang, Guan Wang, Wenhui Deng, Jianfei Gao, Qianfeng Zhang, Pei Kou, Linyuan Zhu, Xuejun
Author_xml	– sequence: 1 givenname: Guan surname: Wang fullname: Wang, Guan email: belonging@163.com organization: School of Mechanical Engineering, Ningxia University, Ningxia Key Laboratory of Computer Aided Engineering Technology for Intelligent Equipment, Ningxia University – sequence: 2 givenname: Qianfeng surname: Gao fullname: Gao, Qianfeng organization: School of Mechanical Engineering, Ningxia University – sequence: 3 givenname: Linyuan surname: Kou fullname: Kou, Linyuan organization: School of Mechanical Engineering, Ningxia University, Ningxia Key Laboratory of Computer Aided Engineering Technology for Intelligent Equipment, Ningxia University – sequence: 4 givenname: Pei surname: Zhang fullname: Zhang, Pei organization: School of Mechanical Engineering, Ningxia University – sequence: 5 givenname: Wenhui surname: Wang fullname: Wang, Wenhui organization: School of Mechanical Engineering, Ningxia University – sequence: 6 givenname: Jianfei surname: Deng fullname: Deng, Jianfei organization: School of Mechanical Engineering, Ningxia University – sequence: 7 givenname: Xuejun surname: Zhu fullname: Zhu, Xuejun organization: School of Mechanical Engineering, Ningxia University, Ningxia Key Laboratory of Computer Aided Engineering Technology for Intelligent Equipment, Ningxia University
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SubjectTerms	Austenitic stainless steels Control Dynamical Systems Engineering Erosion mechanisms Erosion rates Failure mechanisms Failure prevention Impact damage Industrial and Production Engineering Kinematics Kinetic energy Material properties Mechanical Engineering Multiphase flow Numerical methods Original Article Particle impact Plowing Potential energy Stainless steel Two phase flow Vibration 기계공학
Title	Study on liquid-solid jet erosion characteristics of 316L stainless steel
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