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Hotspot stress monitoring method based on measurement point pressure of optical fiber sensor

An optical fiber sensor, hot spot stress technology, applied in the direction of measuring force, measuring force by measuring the change of optical properties of materials when they are stressed, instruments, etc., can solve problems such as many cables

Inactive Publication Date: 2019-01-11
HARBIN ENG UNIV
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Problems solved by technology

Too many cables and not enough

Method used

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  • Hotspot stress monitoring method based on measurement point pressure of optical fiber sensor
  • Hotspot stress monitoring method based on measurement point pressure of optical fiber sensor
  • Hotspot stress monitoring method based on measurement point pressure of optical fiber sensor

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Embodiment Construction

[0021] The specific embodiment of the present invention will be further described below in conjunction with accompanying drawing:

[0022] The present invention is based on the method for directly obtaining the hot spot stress based on the stress at the measuring point of the optical fiber sensor. The method is based on the relationship coefficient between the hot spot stress and the stress at the measuring point on the finite element model of the real simulation of the whole ship, for example: the end where the transverse bulkhead intersects the inner bottom plate For the hot spot stress, the magnitude of the hot spot stress can be obtained directly only by the expression of the relationship coefficient between the stress value at the monitoring point of the optical fiber sensor and the finite element model. The method can perform real-time monitoring of ship stress and strain more quickly and efficiently.

[0023] A method of directly obtaining the hot spot stress from the p...

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Abstract

A hotspot stress monitoring method based on a measurement point pressure of an optical fiber sensor belongs to the field of local strength monitoring and ship stress monitoring of a designed ship. Themethod comprises the steps of mounting the optical fiber sensor according to the need of an actual ship height stress region, wherein the sensor is placed in a nominal stress region; conducting a finite element model simulation experiment, reading similar loading and capacity conditions in a finite element simulation process in combination with a sea condition and wave parameter information, determining an actual ship stress, and determining a measurement point position and finding out a relation coefficient k of the measurement point and the hotspot stress; and directly reading the hotspot stress according to a formula delta2=k*delta1 and the relation coefficient in combination with the measurement point stress. According to the hotspot stress monitoring method, a finite element model and an actual ship can be better connected in series, the actual ship can directly obtain the hotspot stress according to the measurement point pressure of the optical fiber sensor in the normal sailingprocess, the condition that information such as a mounting position must be considered for accurate measurement of the hotspot stress in the optical fiber sensor mounting process can be avoided, andthe real-time monitoring of ship stress and strain can be rapidly and efficiently performed.

Description

technical field [0001] The invention belongs to the fields of local strength monitoring of designed ships and whole ship stress monitoring, and in particular relates to a hot spot stress monitoring method based on optical fiber sensor measuring point pressure. Background technique [0002] The safety of the structure during the navigation of the ship is the basis for ensuring normal navigation. In the design of the ship, the designer should determine various design loads according to the relevant specifications and guidelines provided by the classification society to evaluate the strength of the components. However, due to the complex sea conditions and the randomness of the force during the actual voyage, it is very easy to cause damage to the hull structure, so real-time monitoring of stress is required, especially the hot spot stress in high stress areas. The monitoring system has developed from the initial resistance strain gauge to today's fiber optic sensor technology,...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01L1/24G01L5/00
CPCG01L1/242G01L5/0047
Inventor 冯国庆周渝航任慧龙周学谦刘浩马瑞琪
Owner HARBIN ENG UNIV
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