Traditional nuclear engineeringNuclear engineering concreteConcrete vibrationVibration reliesVibration concrete on manual experience to control parameters, with problems such as the lack of process quantification standards and large construction fluctuations. At the same time, the traditional vibrationVibration process lacks data traceability means and cannot detect problems in time, resulting in high-cost rework and even structural safety hazards. In response to the prominent problems in the quality control of traditional vibrationVibration construction of concreteConcrete in nuclear engineeringNuclear engineering, such as reliance on manual experience for process parameters, difficulty in tracing process data, and high cost of defect rework, this paper proposes an information-based intelligent monitoringVibration concrete systemIntelligent monitoring system forIntelligent system concreteConcrete vibrationVibration. By deploying vibrationVibration accelerometers, laser ranging modules and inclinometers, a perception network for the motion state of vibrationVibration rods is constructed. Combined with artificial intelligence algorithmsAlgorithms, intelligent monitoring of the entire process ofVibration concrete concreteConcrete vibrationVibration construction in nuclear engineeringNuclear engineering is achieved to ensure the quality of concreteConcrete construction in nuclear engineeringNuclear engineering.

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A Research on the Application of an Intelligent Monitoring System for Concrete Vibration in Nuclear Engineering

  • Yuanda Liu,
  • Yuzhong Han,
  • Shiliang Ji,
  • Yulin Liu,
  • Weihong Dong,
  • Liping Xie,
  • Dong- hao Di

摘要

Traditional nuclear engineeringNuclear engineering concreteConcrete vibrationVibration reliesVibration concrete on manual experience to control parameters, with problems such as the lack of process quantification standards and large construction fluctuations. At the same time, the traditional vibrationVibration process lacks data traceability means and cannot detect problems in time, resulting in high-cost rework and even structural safety hazards. In response to the prominent problems in the quality control of traditional vibrationVibration construction of concreteConcrete in nuclear engineeringNuclear engineering, such as reliance on manual experience for process parameters, difficulty in tracing process data, and high cost of defect rework, this paper proposes an information-based intelligent monitoringVibration concrete systemIntelligent monitoring system forIntelligent system concreteConcrete vibrationVibration. By deploying vibrationVibration accelerometers, laser ranging modules and inclinometers, a perception network for the motion state of vibrationVibration rods is constructed. Combined with artificial intelligence algorithmsAlgorithms, intelligent monitoring of the entire process ofVibration concrete concreteConcrete vibrationVibration construction in nuclear engineeringNuclear engineering is achieved to ensure the quality of concreteConcrete construction in nuclear engineeringNuclear engineering.