复杂结构应力变形状态测量方法的综合

L. Kuzmych
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引用次数: 0

摘要

目前最常用的测量复杂结构应力-应变状态的仪器是应变片。通常情况下,应变片按照桥式方案连接到测量系统,这样可以消除测量的系统误差和补偿温度变形。在考虑不稳定因素的情况下,利用应变片对复杂技术结构的变形和应力进行构造、设计和数学建模的原则得到了发展,这使得与现有的测量方法和已知的类似物相比,大大降低了误差水平。对限制应变片测量精度的主要不稳定因素进行了分析,如图1-4所示:随机过程(噪声、障碍物等);测量传感器参数因老化和物理退化而随时间变化;外部气候和机械因素(温度、湿度等)的影响。温度误差值是为制造应变片最常用的合金设定的,即:康士坦和卡玛。本工作旨在通过引入考虑不稳定因素的改进理论计算,寻找提高应力-应变状态测量装置(特别是应变片和应变片)的远程测量精度和阻抗的方法,从而使相对于已知类似物的误差水平降低数十倍。
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Synthesis of Measurement Method of Stressed — Deformed Condition of Complex Structures
Nowadays the most common instruments of measuring the stress-strain state of complex structures are strain gauges. As a rule, strain gages are connected to the measuring system according to the bridge scheme, it provides elimination of systematic errors of measurement and compensation of temperature deformations. The principles of constructing, designing and mathematical modeling of deformation and stresses of complex technical constructions with the help of strain gauges taking into account destabilizing factors are developed, which allows to significantly reduce the level of errors in relation to existing methods of measurement and known analogues. The analysis of the main destabilizing factors that limit the accuracy of measurement using strain gauge is carried out, are (Fig. 1—4): the random processes (noises, obstacles, etc.); the time changes of parameters of measuring transducers due to aging and physical degradation; the influence of external climatic and mechanical factors (temperature, humidity, etc.). The temperature error values are set for the most common alloys used for the manufacture of strain gauges, namely: constantan and karma. This work is aimed at finding ways to improve the accuracy of remote measurements and impedance of measuring devices of the stress — strain state, in particular strain gauges and strain gauges, by introducing improved theoretical calculations taking into account destabilizing factors, which makes it possible to reduce the level of errors with respect to known analogs in dozens of times.
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