RU2254564C1 - Method and device for determining characteristics of loose material - Google Patents

Abstract

FIELD: investigating or analysis of material.

SUBSTANCE: method comprises determining the limit value of the stress by measuring the angle of inclination of the surface which is provided with the initial material. The device comprises changeable coating with projections and locking member made of a frame having thin baffles or thin film made of an adhesive agent.

EFFECT: improved method.

2 cl, 3 dwg

Description

The invention relates to mining, in particular to the beneficiation of minerals for studying the mechanical properties of bulk finely dispersed materials in determining the technological regimes and geometric parameters of concentrators, for example, when studying the behavior of the sediment layer on an inclined plane.

A known method for determining the mechanical characteristics of the limiting state of the material, including placing the material in the form of a body on a flat surface in a stable static state, moving it to an unstable state by tilting the surface, measuring the resulting minimum angle of inclination of the surface relative to the horizontal plane, and then determining the calculation of the mechanical characteristic, for example, static slip friction coefficient (see MM Gernet. Course of Theoretical Mechanics. Ed. 3rd . Ererab and additional Textbook for high schools M .: Higher School, 1973. -.. With 464, p.92 ... 93)..

The device includes a flat surface with a possible change in the angle of inclination relative to the horizontal plane (see ibid.).

A disadvantage of the known solution is its limited application to bulk, especially finely dispersed materials and, in particular, when placing them in a liquid medium in the form of a sediment layer. If bulk material is based on an inclined surface, then the latter starts moving in volume gradually: with a change in the layer height due to sliding and rolling particles, starting from the upper level of the layer. Changing the geometry of the shape of the material over time affects the accuracy of the determined characteristics.

The closest in technical essence to the claimed solution is a method for determining the mechanical characteristics of the limiting state of granular material by the natural slope angle, including placing the material in a transparent prismatic container in a stable static state, moving it to an unstable state by tilting the container, measuring the angle formed between the upper layer of material and a horizontal plane, (see Lomtadze VD Physical and mechanical properties of rocks. Laboratory methods dovany manual for schools -.. 2nd ed, break and extra -... L .: Nedra, 1990. - 328, p.292 ... 293)..

A device for implementing the method includes a transparent prismatic tank, installed with the possibility of changing the angle of inclination relative to the horizontal plane, with the material being studied inside (see. V. Lomtatze ... p. 292 ... 293).

The disadvantage of this solution is the change in the initial form of the distribution of the material by volume, which limits the study on the influence of the height of the layer of bulk material on its ultimate state on an inclined plane. It also has low accuracy of the obtained values of mechanical characteristics, for example, ultimate shear stresses in a layer at a depth h normal to the slope surface, obtained from analytical dependences (see below) based on the measured angle. Since the formation of the slope angle proceeds in time due to the sliding and rolling particles of the upper layers, this angle does not reflect the shear process. In addition, the formation of the angle is influenced by additional resistance arising from the friction forces between the particles reaching the lower position and the bottom of the tank, as well as the dynamic factors that arise in this zone during the formation of the slope.

The technical result is the expansion of functionality by types of mechanical characteristics of the limiting state of materials and their forms of existence, as well as improving the accuracy of their values.

The essence of the invention lies in the fact that in the method for determining the mechanical characteristics of the limiting state of bulk material, including placing the material in a transparent prismatic container in a stable static state, moving it into an unstable state by tilting the container, measuring the angle formed between the upper layer of material and the horizontal plane, placement material is carried out along the plane of the container with a uniform layer of constant height with the application of a fixing element on its upper surface surface, while the mechanical characteristic of the limiting state of the material is determined by the limiting value of shear stress according to the formulas: for air

for liquid medium

where h is the height of the layer to be cut, g is the acceleration of gravity, ρ is the density of the bulk material, ρ _T is the density of the solid phase of the material, ρ _Ж is the density of the liquid medium, m is the volumetric content of the solid part in the material layer (in units), α is the measured angle.

The invention also consists in the fact that a device for implementing the method, comprising a transparent prismatic container, installed with the possibility of changing the angle of inclination relative to the horizontal plane, with the test material placed inside, is characterized in that the bottom of the container is made in the form of a flat ledge provided with a removable coating with protrusions constant height, and the device is additionally equipped with a fixing element made in the form of a frame of thin partitions or in the form of a thin film of sprayed an adhesive located on top of the test material.

The proposed solution does not exclude the possibility of performing the functions of the prototype and analogue, namely, the determination of the natural slope angle of bulk material, the angle of friction and the static coefficient of friction of a solid.

The execution of the bottom of the tank in the form of a flat ledge provides in an inclined position the free exit of bulk material into the cavity of the tank below the level of the ledge, eliminating the influence of additional resistance of the particles on the bottom of the tank.

The installation of a removable coating with protrusions of constant height and the application of a fixing element along the upper part of the material allow the entire part of the layer to be cut off according to the level of the protrusions and to determine an additional characteristic of the material — the ultimate shear stress of bulk material.

Placing bulk material along the container plane with an even layer of constant height with the application of a fixing element on its upper surface makes it possible to determine its static coefficient of friction f on the base surface as f = tgα.

The application of the fixing element on the upper part of the layer excludes dynamic factors associated with the change in the shape of the layer, which brings the process closer to the mechanical shift of the layer.

The proposed dependences allow, besides the measured angle, to take into account an additional factor - the layer height. In addition, they allow you to experimentally establish the relationship between the angle of inclination of the layer and its height.

Filling the tank with liquid medium expands the scope of use of the technical solution for determining the mechanical characteristics of the sediment layer.

Thus, the method and device make it possible to determine the angle of friction, the static coefficient of friction for the material of solids and bulk materials. It is also possible to determine the angle of repose, the ultimate shear stress of bulk materials both in a dry state and in a liquid medium. The elimination of side effects (particle friction on the bottom of the vessel at the outlet, dynamic processes of displacement of a part of the layer, changing the shape of the layer) increases the accuracy of the process.

Figure 1 shows a device for determining the mechanical characteristics of the limiting state of the material; figure 2 - element a in figure 1, (enlarged); figure 3 is a view of B in figure 2.

The implementation of the proposed method is as follows. The bulk source material is placed in a transparent container on the surface of the ledge with an even layer of constant height, ensuring its stable static state, Fig. 1, a fixing element in the form of a frame is applied to its upper surface or a sticky substance is sprayed with a relatively thin layer. By tilting the container, and with it the plane of the ledge, the initial material is brought into an unstable state, in which it begins to move downward under the influence of gravitational force. At this point, measure the angle of inclination between the upper shear layer of the material and the horizontal plane, which is the final result or intermediate for subsequent calculations of other mechanical characteristics. When determining the value of the ultimate shear stress, the height of the layer and the density of the bulk material are pre-measured.

If you select the elementary volume of the layer on an inclined plane at an angle α to the horizontal surface, figure 2, then the resulting tangential stresses along the shear plane are defined as

- выделенный вертикальный объем слоя до плоскости среза.where ΔG is the gravity of the selected element at a depth h normal to the layer; ΔS is the shear area; B is the width of the layer;

- selected vertical volume of the layer to the plane of the cut.

It follows that the value of the shear stress of the layer is influenced by: the density of the bulk material, the height of the layer normal to the plane of the base of the material and its angle of inclination.

When a container is filled with a liquid medium, a buoyant force (Archimedean force) appears, and the density of the liquid and porosity of the layer are additionally taken into account in accordance with formula (2).

The measured α, h and the previously known (or ρ _t , ρ _W , m using formulas (1) or (2) determine the ultimate value of the shear stress of a layer of bulk material or sediment.

The device for determining the ultimate shear stress consists of a transparent prismatic tank 1, filled with a limited volume of bulk material 2, located in the form of a layer on the surface of the ledge 3 of the tank bottom. In addition, the surface of the ledge can be made removable and consist of a plane 4 provided with protrusions 5 of the same height. On top of the layer of bulk material is a locking element 6 in the form of a frame of thin partitions. As the fixing element, a film obtained by spraying an adhesive can be used.

The operation of the device is carried out in the following sequence.

The test bulk material is placed in the tank with a layer of height h on the surface of the ledge 3 or layer h to the level of the protrusions. A fixing element 6 is placed over the layer. The container may be filled with a liquid medium. By tilting the container 1 at an angle α, and with it the plane of the ledge, the layer of bulk material is brought into an unstable state, which moves downward along the inclined plane, filling the cavity of the container with particles below the ledge. In this case, the plane is considered to be the shear surface at the level of thresholds 5. The minimum angle of inclination of the ledge plane α is measured, at which the layer begins to shift with the subsequent calculation of mechanical characteristics: ultimate shear stress or static coefficient of friction.

Thus, the proposed method is universal: it allows you to determine a number of mechanical characteristics of the limiting state of both a solid and bulk materials, both in dry form and in a liquid medium. The design of the device is easy to manufacture and operate. It eliminates a number of negative factors affecting the accuracy of the results and allows for the study of dispersed materials to additionally take into account the layer height. It can be used in various fields when solving similar problems, for example, to determine the ultimate mechanical characteristics of snow cover on an inclined plane.

Claims (2)

1. The method of determining the mechanical characteristics of the limiting state of bulk material, including placing the material in a transparent prismatic container in a stable static state, moving it to an unstable state by tilting the container, measuring the angle formed between the upper layer of the material and the horizontal plane, characterized in that the material is carried out along the plane of the container with a uniform layer of constant height with the application of a fixing element on its upper surface, while Mechanical Protection characterization of the state of the material is determined by the limiting value of the shear stress by the formulas: for air, τ = hgρsinα, (1) for a liquid medium τ = hgm (ρ _т -ρ _ж ) sinα, (2) where h is the height of the cut layer, g is the acceleration of gravity, ρ is the density of the bulk material, ρ _t is the density of the solid phase of the material, ρ _w is the density of the liquid medium, m is the volumetric content of the solid part in the material layer (in units), α is the measured angle. 2. A device for determining the mechanical characteristics of the limiting state of granular material, containing a transparent prismatic container, installed with the possibility of changing the angle of inclination relative to the horizontal plane, with the material under study, characterized in that the bottom of the container is made in the form of a flat ledge equipped with a removable coating with protrusions constant height, and the device is additionally equipped with a locking element made in the form of a frame of thin partitions or in the form of thin th film atomised adhesive substance disposed on top of the material.

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