Mechanical Study of Carbon Fiber Reinforced Plastic and Thin-walled Metal Liner in Bi-Material COPV Based on Grid Theory Optimization

Yu, Bo; Zhang, Jian Jun; Zhao, Ji Peng; Tian, Jie

doi:10.4028/www.scientific.net/msf.1027.15

Cited by 2 publications

(2 citation statements)

References 9 publications

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“…Ebrahim et al With the background of numerical simulation and model testing, the damage identification of the structure under noise is studied, and a damage detection method based on the modal multiresolution complexity spectrum is proposed [ 4 ]. Yu et al used the mode shape change before and after structural damage to identify the continuous beam and achieved good results [ 5 ]. Kortenbruck et al for the first time, based on the numerical simulation of beam structures damage identification was carried out according to the change of flexibility before and after damage [ 6 ].…”

Section: Literature Reviewmentioning

confidence: 99%

Application of Particle Swarm Algorithm in Nanoscale Damage Detection and Identification of Steel Structure

Zhang

2022

International Journal of Analytical Chemistry

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In order to identify the damage of a grid structure, the author proposes a damage identification method for grid structures based on particle swarm optimization. First, using the Modal Assurance Criterion (MAC) and combining the respective advantages of frequency and mode shape in damage identification, a fitness function based on frequency and mode shape is constructed. Second, two test functions are used to compare and analyze, which shows that the improved particle swarm algorithm has better optimization performance. Finally, through an example of a grid structure simulation model, the effectiveness of the proposed method is verified. Three working conditions were set up for damage identification, and the results were analyzed. Results. The particle swarm calculation of case 1 converged in the 53rd generation, and case 2 completed the convergence in the 67th generation, which is consistent with the actual situation. Condition 3 completed the convergence at the 125th generation, indicating that the fitness value has been decreasing until then, and it does not change after the convergence, indicating that the convergence is good. The damage degree of No. 92 member was identified as 95.69%, and the damage degree of No. 105 member was 96.28%. Basically, this is in line with the actual situation. Conclusions. The damage identification method based on the particle swarm algorithm can accurately identify the location and degree of damage.

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Section: Literature Reviewmentioning

confidence: 99%

Application of Particle Swarm Algorithm in Nanoscale Damage Detection and Identification of Steel Structure

Zhang

2022

International Journal of Analytical Chemistry

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“…Among a number of currently known materials used for weighted drill pipes, composite carbon drill pipes [102] have shown minimal sensitivity to the geometric imperfection of the bit. Researchers [103][104][105][106][107] study the mechanical properties of polymers and the stress state, but there is no data on the operation of the drill string of pipes made of composite carbon materials and the bit. Analysis of the bit-well contact interaction during operation in non-standard mode allowed assessing the non-standard stresses that occur in the blades of the bit.…”

Section: Discussionmentioning

confidence: 99%

Influence of Heavy Weight Drill Pipe Material and Drill Bit Manufacturing Errors on Stress State of Steel Blades

et al. 2021

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Drilling volumes should be increased in order to increase hydrocarbon production, but this is impossible without the usage of high-quality drilling tools made of modern structural materials. The study has to analyze the design, technological and operational methods to increase the performance of drilling tools made of various materials and has highlighted prospects of technological method applications. The scientific novelty of the study consists in the development of a new analytical model of PDC drill bit–well interaction. The developed model takes into account the drill bit manufacturing errors in the form of bit body–nipple axes misalignment on the drill bit strength. This result makes it possible to determine the permissible manufacturing errors to provide safe operation of the drill bit. It is established that there is an additional transverse force that presses the drill bit to the well wall in the rock due to manufacturing errors. It is determined that the magnitude of this clamping force can be significant. The material effect has been analyzed on additional clamping force. It is established that geometric imperfection of the drill bit causes the minimal effect for the elastic system of the pipe string, which includes a calibrator and is composed of drill pipes based on composite carbon fiber material, and the maximal effect—for steel drill pipes. Polycrystalline diamond compact (PDC) drill bit and well wall contact interaction during operation in non-standard mode is considered. Non-standard stresses are determined, and the strength of the blades is estimated for different values of drilling bit manufacturing error.

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Mechanical Study of Carbon Fiber Reinforced Plastic and Thin-walled Metal Liner in Bi-Material COPV Based on Grid Theory Optimization

Cited by 2 publications

References 9 publications

Application of Particle Swarm Algorithm in Nanoscale Damage Detection and Identification of Steel Structure

Application of Particle Swarm Algorithm in Nanoscale Damage Detection and Identification of Steel Structure

Influence of Heavy Weight Drill Pipe Material and Drill Bit Manufacturing Errors on Stress State of Steel Blades

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