RU158443U1 - DEVICE FOR DETERMINING DYNAMIC CHARACTERISTICS OF ELASTOMERS - Google Patents

Abstract

A device for determining the dynamic characteristics of elastomers containing a table mounted on a movable system of a vibrator, a test sample of an elastomer installed above a table and a load placed above a test sample of an elastomer, characterized in that the test sample of an elastomer is rigidly connected to the upper and lower metal plates attached by screws by vulcanization or gluing respectively to the upper and lower brackets, the upper and lower brackets are pivotally connected respectively to the upper and lower with a fork, the axis of these hinges is aligned and passes tangentially to the upper surface of the test elastomer sample through the center of this surface, the lower fork is rigidly fixed to the vibrator table, and the load is rigidly attached to the upper fork, holes for fixing with holes are made in the upper and lower brackets and forks pins of the angle of inclination of the tested elastomer sample to the surface of the vibrator table in the range from 0 ° to 90 °.

Description

The utility model relates to testing of materials, namely, devices for determining the dynamic characteristics of elastic materials.

A device for determining the dynamic modulus of elasticity of soundproof materials and products with longitudinal vibrations of a loaded sample by the magnitude of the frequency of vibrations at which the acceleration amplitude becomes the largest (resonance) [1]. The device comprises a stage fixed to the movable system of the vibrator, a test elastomer sample installed above the table and a load installed above the test elastomer sample [1, Fig. 1, p. 3].

However, this device does not allow to determine the dynamic characteristics of skew-placed elastic materials at different values of the angle of inclination of these materials to the surface of the vibrator table. Oblique elastic materials are used in rubber-metal vibration isolators to connect the protected object (engine, cab, other units and mechanisms) with the frame of the machine [2, p. 211, fig. 24], [3, p. 32, fig. 2.1, m]. Oblique prismatic elastic elements during technological operations with a change in the operating mode of the machine are turned relative to the protected object, smoothly changing the stiffness of the vibration isolators and reducing the vibration of the protected objects [4].

The objective of this utility model is to provide the ability to determine the dynamic characteristics of elastomers at various values of the angle of inclination of the tested material samples to the surface of the vibrator table [5] with the position of the application point of the vertically acting load to the surface of the sample in the center of the sample.

The task is achieved in that in a device containing a table mounted on a movable system of a vibrator, a test sample of an elastomer installed above a table and a load placed above a test sample of an elastomer, distinctive features are that the test sample of an elastomer is cured or bonded rigidly to the top and lower metal plates attached by screws to the upper and lower brackets, respectively, the upper and lower brackets are pivotally connected respectively but with the upper and lower forks, the axis of these hinges is aligned and passes tangentially to the upper surface of the test elastomer sample through the center of this surface, the lower fork is rigidly fixed to the vibrator table, and the load is rigidly attached to the upper fork, in the upper and lower brackets and forks holes for fixing with the help of pins of the angle of inclination of the tested elastomer sample to the surface of the vibrator table in the range from 0 ° to 90 °.

In FIG. 1 shows the appearance of a device for determining the dynamic characteristics of elastomers in the horizontal position of the test elastomer sample. In FIG. 2 shows a section AA of this device in a vertical plane. In FIG. 3 shows the appearance of a device for determining the dynamic characteristics of elastomers when the test elastomer sample is tilted to the surface of the vibrator table.

The device comprises a stage 1 mounted on the movable system of the vibrator, mounted above the stage 1, the test sample of elastomer 2 and installed above the test sample of elastomer 2 load 3 (Fig. 1, Fig. 2).

The test sample of elastomer 2 by vulcanization or gluing is rigidly connected to the upper 4 and lower 5 metal plates. With screws 6, the upper metal plate 4 is attached to the upper bracket 7, and the lower metal plate 5 is attached to the lower bracket 8.

The upper bracket 7 is pivotally connected to the upper fork 9, and the lower bracket 8 is pivotally connected to the lower fork 10. The O-O axis of these hinges (Fig. 2) is aligned and passes tangentially to the upper surface of the test sample of elastomer 2 through the center B of this surface.

The lower fork 10 is rigidly fixed on the table 1 of the vibrator 1. To the upper fork 9 is rigidly attached load 3.

In the upper 7 and lower 8 brackets, as well as in the upper 9 and lower 10 forks, holes 11 are made (Fig. 1 and Fig. 3) for fixing with the help of pins 12 and 13 the angle of inclination φ of the tested elastomer sample to the surface of the vibrator table in the range from 0 ° to 90 °.

To ensure the invariability of the nature of the load, the device is symmetrical about the vertical axis U-U (Fig. 2).

To determine the dynamic characteristics of elastomers, at least six samples are taken from each batch of elastomers.

The test sample of material 2 is rigidly connected by vulcanization or gluing with the upper 4 and lower 5 metal plates,

Screws 6, the upper metal plate 4 is attached to the upper bracket 7, and the lower metal plate 5 is attached to the lower bracket 8.

The lower plug 10 is rigidly fixed on the table 1 of the vibrator. To the upper fork 9, the load 3 is rigidly attached.

The upper bracket 7 is pivotally connected to the upper fork 9, and the lower bracket 8 is pivotally connected to the lower fork 10.

Install pins 12 and 13 in the holes of the upper 7 and lower 8 brackets, as well as in the upper 9 and lower 10 forks so that the angle of inclination φ of the tested elastomer sample to the surface of the vibrator table is 0 ° (Fig. 1).

The vibrator table 1 is brought into a vertical oscillatory motion, setting the measuring amplifier to automatically maintain a constant amplitude of the acceleration of the load 3. Using a low-frequency measuring sound generator, oscillations of 5 Hz are set.

The oscillation frequency is smoothly changed and the resonance frequency f is determined at which the acceleration amplitude of the load 3 becomes maximum. The acceleration amplitude is recorded using accelerometers and a vibration meter [5].

According to the resonance frequency f, the dynamic elastic modulus E _D (N / m ² ) of the elastomer is calculated by the formula [4, p. four]

where f is the resonance frequency, Hz;

M is the mass of the load, kg;

h is the height of the sample under load, m;

F is the total area of simultaneously tested samples, m ² .

Tests in the same sequence are carried out for other selected samples of the batch of elastic materials under consideration.

For each batch of elastomer and a specific mass M of the load, the arithmetic mean value of the values of the dynamic elastic modulus is calculated.

Successively change and fix the angle of inclination φ of the tested elastomer samples 2 to the surface of the table 1 and change the mass M of the load 3. To do this, unscrew the screw securing the load 3 to the upper fork 9 and remove the load 3. Remove the pins 13 from the holes and rotate around the axis O-O at the desired angle φ with respect to the table 1 and the lower fork 10, the block of rigidly connected parts, consisting of the lower bracket 8, screws 6, the upper 4 and lower 5 metal plates, the test sample of elastomer 2, the upper bracket 7, the upper fork 9 and the pins 12 .Install the pin s 13 into the combined holes of the lower fork 10 and the lower bracket 8 (Fig. 3). The pins 12 are removed from the holes and the upper fork 9 is rotated around the O-O axis in the opposite direction with respect to the upper bracket 7. The pins 12 are inserted into the combined holes of the upper fork 9 and the upper bracket 7. Fasten the weight 3 on the upper fork 9 with a screw .

For each set value of the slope angle φ of the tested elastomer 2 samples and mass M of load 3, the dynamic elastic modulus value is determined in the above sequence, and the arithmetic mean of the elastic modulus values for each batch of material.

As a result of testing at the VEDS-10A vibrating electrodynamic test bench, experimental data were obtained for 5969 rubber [5].

Information sources

1. Soundproof and sound absorbing materials. Test methods. GOST 16297-80. The publication is official. State Construction Committee of the USSR. M. Standards Publishing House, 1988.

2. Vibration in technology. Directory. Volume 4. / Ed. E.E. Lavendela. - M .; Engineering, 1981.

3. Lyapunov V.T., Lavendell E.E., Shlyapochnikov S.A. Rubber vibration isolators. Reference book - L .: Shipbuilding, 1988, - 216 p.

4. RF patent for the invention No. 2453746. Method of vibration protection of machines. Publ. 06/20/2012 Bull. Number 17.

5. Application for invention No. 2013135596/28 (053389) dated 07/29/2013 "Method for determining the dynamic characteristics of elastomers". G01N 3/30. Decision on the grant of a patent dated December 22, 2014

Claims (1)

A device for determining the dynamic characteristics of elastomers containing a table mounted on a movable system of a vibrator, a test sample of an elastomer installed above a table and a load placed above a test sample of an elastomer, characterized in that the test sample of an elastomer is rigidly connected to the upper and lower metal plates attached by screws by vulcanization or gluing respectively to the upper and lower brackets, the upper and lower brackets are pivotally connected respectively to the upper and lower with a fork, the axis of these hinges is aligned and passes tangentially to the upper surface of the test elastomer sample through the center of this surface, the lower fork is rigidly fixed to the vibrator table, and the load is rigidly attached to the upper fork, holes for fixing with holes are made in the upper and lower brackets and forks pins of the angle of inclination of the tested elastomer sample to the surface of the vibrator table in the range from 0 ° to 90 °.

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