SU962790A1 - Installation for investigating resiliency of web and fibrous materials - Google Patents

Description

The invention relates to a testing technique and can be used in the study of elastic characteristics, for example, the elastic modulus of tape and fibrous material.

- A device for studying the elastic characteristics of tape and fibrous materials is known, which contains a material feed mechanism, a receiving mechanism, a compensation mechanism, a recorder of elastic characteristics in the form of a square meter of longitudinal vibration frequency and a sensor with a guide roller, electrically coupled. ny with one recorder input 11.

The lack of a mouthpiece is the difficulty of determining the elastic characteristics, as the determination of the frequency of longitudinal vibrations is associated with the difficulty of creating these vibrations in the material under test.

The purpose of the invention is to simplify the study.

To achieve this goal, an installation for investigating the elastic characteristics of tape and fibrous materials, comprising a material feed mechanism, receiving mechanism, compensation mechanism, elastic characteristics recorder and sensor

a guide roller electrically connected with one recorder input is equipped with a second similar sensor installed between the first sensor and a compensation mechanism and electrically connected with the second recorder input, and the recorder is made in the form of a shock wave velocity meter between sensors.

The drawing shows the scheme of the proposed installation ..

The installation contains a test material supply mechanism 1, a receiving mechanism 3, a compensation mechanism 4, two sensors 5 and 6 with guide rollers 7 and 8 installed between the feed mechanism 1 and the compensation mechanism 4, and a recorder

20 9 elastic characteristics, made in the form of a velocity meter for the passage of a shock wave between sensors 5 and 6. Sensors 5 and 6 are electrically connected to the corresponding inputs

25 registrar 9.

The installation works as follows.

The tape or fibrous material 2 is sequentially placed in

30, the test material supply mechanism 1, on the guide rollers 7 and 8, the compensation mechanism 4 and the receiving mechanism 3. Due to the difference in the speeds of movement of material 2 in the feed mechanism 1 and in the receiving mechanism 3, material 2 is in a tensioned state and moves on rollers 7 and 8. During the test, material 2 temporarily slows down. There is a movement in the feeder 1. By abruptly changing the speed of movement of the material 2 and changing the direction; Movement of the movable part of the compensation mechanism 4 in material 2 produces longitudinal shock waves that propagate along material 2, acting through rotors 7 and 8 on sensors 5 and 6. Signals from sensors 5 and b are fed to two inputs of the recorder 9, which measures the velocity t of the passage of the shock wave between the sensors 5 and b, set at a distance from each other. Knowing the density p of the test material, calculate the elastic modulus E by

Formula E -. Since materials can be tested and manufactured during their manufacture, the mechanisms for production lines of material can be used as material feed mechanism 1, receiving mechanism 3 and compensation mechanism 4, and sensors 5 and 6 rollers 7 and 8 and the recorder 9 at the same time

set between the feed mechanism 1 and the mechanism 4-compensation process line.

The device makes it possible to determine the modulus of elasticity of the material, without disturbing the operation of the installation or the process line, by measuring the speed of passage of the shock wave between two sensors.

Claims (1)

1. Copyright certificate USSR No. 796712, cl. G 01 N 3/08, 1978 (prototype). R:/