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удлинение тензометра
Strain gauge with a vibrating string
Semiconductor strain gauges

Load cells, strain gauges, sensors
Foil strain gauges
Measuring stress vibrating string. Tensometer


Experimental sensors
- Strain gauges


Strain gauge
Glues, connective for editing of strain sensors
Attestation, calibration, check of strain sensors

Measurement of mechanical strain ( stress ) using a strain gage

The apparatus for measuring strain in static mode

Strain softening materials

Installation of hydro-protection resistor strain gages and strain gauge transducers


    


Thermistors, thermo-resistors
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Imager Testo 890
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Phenomenon of Pel't'e

Electronic thermometer
Measuring stress vibrating string. Tensometer


   The principle of strain gauge with a vibrating string. Basic formulas, schematic design tensiometer, characteristics.
   This method of measurement of mechanical stress (strain, elongation) uses the sensor steel strings stretched between two clamps fixed in the design, which studies the deformation. Changing the mechanical tension of the string changes the frequency of oscillations of ν, and Δν measurement to determine strain. One of the advantages of this method is the long service life of the sensor (transducer, strain gauge), reliability, low susceptibility to influence by external influences (humidity, radiation, etc.). These benefits provide the strength and design of strain gauge strings. In this method, a data carrier is the output frequency, which creates additional benefits in terms of resistance to interference in the form of noise, interference, transmission line effects. In addition the signal is easily converted into digital form.

   The fundamental frequency of mechanical vibrations ν string stretched between two points at a distance l and subjected to the action of force F, is given by

ν  = (1/2l) F / Sρ

where S-sectional area of the string, ρ-density.
Under the influence of mechanical stress F / S string undergoes elongation Δl. Analyzing the stress strain behavior of the string an expression for the elongation (the strain) through the change of frequency:
E - Young's modulus. Knowing ν0 (initial frequency) and measuring ν1 (frequency after deformation structures), can thus determine the deformation of the structure.
    Fig.1. Strain gauge with a vibrating string

   Figure 1 shows the strain gauge (scheme) of a vibrating string. Steel strings varies with the frequency of the signal ν front coil, causing periodic fluctuations in its magnetic resistance of the magnetic circuit, which generates an electrical signal at the same frequency ν. This signal is amplified and transmitted to the excitation coil that supports vibration. ν frequency can be measured with a frequency. The characteristics of this type of strain gauges can be found in the literature. For example, a strain gauge production company "Telemachus," has the following characteristics: maximum frequency of ~ 1200 Hz, the minimum frequency of about 400 Hz, range 4000mkm / m and a resolution of 1 mkm / m, the accuracy of 1 to 2% range.

   Described Meter Type strain (strain gauge) is used for the control of mechanical strain and stress in construction (dams, bridges, tunnels, etc.), the weight measuring, etc.
SENSORS OF PHYSICAL PARAMETERS