SU905747A1 - Device for determination of highly dispersive loose materials physical mechanical properties - Google Patents

Description

The invention relates to techniques for determining the physicomechanical properties of finely dispersed materials, in particular their frictional characteristics.

A device for determining the physical and mechanical properties of ^5-dispersed finely granular materials, comprising a housing, mounted therein motion drive siloizmeritelej and loading mechanism, two cylindrical cage, pre- designated for placement of the test material, disposed coaxially and mounted in the housing rotatably, the first of which interacts with siloiemeritelem, while the second ₁₅ is connected to drive paradise ut movement.

A disadvantage of the known device is that it _s structure does not allow it to test friktsi- onnyh characteristics fine material under vibration loading, which reduces the functionality of the device.

The purpose of the invention is the expansion of functionality.

This goal is achieved by the fact that the device is equipped with a vibrator that generates vibrations directed along the axis of the cage, an annular membrane and a disk mounted coaxially with the second cage, mounted on it with an annular membrane and connected to the vibrator.

The drawing shows a diagram of the device.

A device for determining the physicomechanical properties of finely divided bulk materials contains a housing 1 in which a motion drive 2 is mounted kinematically connected to a second clip 3 intended for loading the test material into it. In the housing 1 coaxially with the second clip 3 · the first clip 4 is placed, also intended for loading the test material into it and mounted in the housing for rotation. The first cage interacts during the tests with the power meter 5 designed to measure the moment of friction forces. The device is equipped with a vibrator 6, which generates vibrations directed along the $ axis of the clips 3 and 4. These vibrations are transmitted through the disk 7, coaxial with the second clip 3 and mounted on it with an annular membrane 8, to the test material 10 loaded into the second clip 3 The test materials placed in the clips 3 and 4 are pressed against each other by means of the loading mechanism 9. In order to better adhere the test material 15 to the disk 7, its working surface in contact with this material can be corrugated.

The device operates as follows 20 times.

The test material is loaded into the clips 3 and 4. Using the load mechanism 9 create a normal load on the materials placed in the clips 25 3 and 4.

To determine the resistance to shear without vibrations, the second cage 3 is rotated by means of the drive 2 of the movement and the force moment arising between the materials placed in the cages 3 and 4 is determined by means of a force meter zo.

To determine the shear resistance under vibration simultaneously with privo- ₃₅ house 2 include movement vibrator 6 which is elastically fixed by a holder 4 in the first disk 7 transmits vibrations to aly experienced mothers. At the same time, the force moment arising between the materials placed in the clips 3 and 4 is also determined using a force meter 5. The shear resistance in the test material is determined by the magnitude of this moment.

The proposed device for testing finely divided bulk materials has advantages compared with known designs, as it allows you to get more information about the properties of the product under static and dynamic conditions, namely the coefficient of external and internal friction during vibration and without vibration. In addition, the device has small dimensions and requires a small amount of material for testing.

Claims (1)

3a0 4 interacts in the process of testing with a measuring device 5 designed for measuring the moment of frictional force. The device is equipped with a vibrator 6, which generates oscillations directed to the axis axis holders 3 and 4. These oscillations are by the era of a disk 7 mounted coaxially with the second-holder 3 and fixed to it by means of an annular membrane 8. transferred to the test material loaded in the second sleeve 3. The test materials, placed in the sleeves 3 and 4, are pressed against each other by means of the loading mechanism 9. For the purpose of better adherence of the test material with the disk 7, its working surface in contact with this material can be made corrugated. The device works as follows. The test material is loaded into the clips 3 and 4. With the help of the loading mechanism 9, the materials placed in the sleeves 3 and 4 are loaded normally. To determine the shear resistance without vibrations, the second cage 3 is rotated by the drive 2 and the moment is determined forces arising between the materials placed in the cages 3 and 4. To determine the resistance to shear during vibrations simultaneously with the actuator 2, the movement includes a vibrator 6, which by means of a resiliently mounted on the first wallpaper Me 4 disc 7 transmits vibrations to the test materials. At the same time, using the force measuring device 5, the moment of forces arising between the materials measured in cages 3 and 4 is determined. The shear resistance in the test material is determined from the value of this 7th moment. The proposed device for testing fine particulate materials has advantages over the known structures, as it allows to obtain more comprehensive information about the properties of the product under static and dynamic conditions, namely the coefficient of external and internal friction during vibration and without vibration. In addition, the device has small dimensions and requires a small amount of material for testing. Claims An apparatus for determining the physicomechanical properties of fine particulate materials, comprising a housing, a drive installed therein, a load cell and a loading mechanism, two cylindrical clips for accommodating test materials arranged coaxially and mounted rotatably in the housing, the first of which interacts with the force meter, and the second is connected to a drive drive, characterized in that, in order to extend the functionality, it abraded by a oscillator that generates vibrations, directed along the axis of the annulus MJ by the annular membrane and the disc mounted coaxially with the second yoke fixed on it by means of an annular membrane and connected to the vibrator. Sources of information taken into account during the examination 1. USSR author's certificate N 90141, cl. G 01 M 19/02, 195O (prototype).