SU1416915A1 - Method of determining plasticity of ceramic mass - Google Patents

Abstract

The invention relates to the ceramic industry primarily for the processing of liquid-plastic media. The purpose of the invention is to determine the optimal pairs of plasticity. The device comprises a frame with a piston press placed on it, mounted on the bed with the possibility of rotation, a cylinder for ceramic mass with a piston and a stem, along the length of which there is a groove with which the mouthpiece communicates. 1 hp f-ly, 6 ill.

Description

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The invention relates to the ceramic industry, primarily for the processing of rigid plastic mixtures.

In the ceramic industry, a method for determining plasticity is known by compressing the mass of free-flowing material with a plate for it. The change in specimen height represents the comparative value of plasticity. The testing process is characterized by the fact that the deformation is dried out by force, decreasing from the maximum determined by the free fall height to the inertia force of the plate. The strain rate varies from the fall rate at the beginning of the strain to 0 (standard THL 18.887. Testing of ceramic raw materials and materials, determination of water content for mixing).

Known laboratory presses containing a cylinder with a piston located in it, and the cylinder at the end is equipped with a replaceable nozzle. These devices are only suitable for testing flexible masses. (USSR Author's Certificate No. 285562, В 28 В 3/22, 1969).

The purpose of the invention is to determine the optimal parameters of plasticity.

The goal is achieved by the fact that a device for determining the plasticity of ceramic masses, containing a piston press for producing ceramic foam motors, including a working cylinder, a test cylinder with a rod and a piston in the form of a nozzle, is provided with a frame and a rotatable frame installed on it, in which The press is placed, and the stem is made with a longitudinal notch in the form of a groove. In addition, the test cylinder is connected to the working cylinder and a pressure source, the piston rod is provided with a flange for connection to the frame, and the piston is made removable.

FIG. 1 shows the device, front view; in fig. 2 - the same, side view; in fig. 3 - test cylinder, slit; in fig. 4 - the same, side view; in fig. 5 shows section A-A in FIG. four; in fig. 6 is a block diagram of a hydraulic control.

The device comprises a frame 1 with a frame 2, which by means of the lever 3 can be fixed in the position from 0 to 90 °. Regulators and measuring instruments are placed on the frame. The working cylinder 4 is attached to the frame 2, the piston rod of which is provided with a shaped part 5. The test cylinder 6 is pivotally connected to the shaped part 5 of the piston by means of two clamping cams 7. 8 piston rod

9 rigidly attached to frame 2. Test cylinder 6 has two bolts on the outside

10dl clamping cams 7. The piston 9 is made with a nozzle 11. It is possible to replace the nozzle with different angles of the cone, as well as

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the rod 8 and the piston 9, for which there is a flange 12, by means of which the piston rod is bolted to the frame 2. On the rod 8 there is a longitudinal recess 13 in the form of a groove. The block diagram contains the engine 14, pump 15, oil reservoir 16, pressure accumulator 17, pressure relay 18, pressure gauge 19, pressure reducing valve 20, pressure gauge 21, directional valves 22, 23, flow restriction valve 24, safety valve 25, pressure gauge 26, a differential pressure gauge 27 and a speed measuring device 28.

The device works as follows.

Fill the test cylinder with the test mass, move it over the piston-9 and connect it to the working cylinder 4 by means of clamping cams 7 and bolts 10. Set the angle of the frame 2 and the notches 13 of the piston rod so that the tangent value fits to the angle of friction materials. During the test, the test cylinder 6 is moved in the direction of the piston 9 by means of a hydraulic system through the working cylinder 4. The mass is sealed and pushed into the nozzle 11, while the production ceramic tape moves along the recess 13 mainly without significant influence of its own weight or sedimentary compressive forces. By positioning the valve 23, a constant pressure or a constant speed is set.

Refractory ceramic masses are rigid plastic and, in contrast to other ceramic masses, show a pronounced dependence of the shape change on time.

The device allows to maintain a constant speed regardless of pressure and vice versa.

Claims (2)

1. A device for determining the plasticity of ceramic masses containing a frame, a piston press for producing ceramic tape with a drive in the form of a hydraulic cylinder, a cylinder for the ceramic paste, a piston with a rod and a mouthpiece inside it, in order to determine parameters of plasticity, the device is equipped with a frame mounted on the frame with the possibility of rotation, in which the piston press is placed, along the length of the rod there is a groove with which the mouthpiece communicates. five 2. A device according to claim 1, characterized in that the rod is connected to the frame by means of a flange plug connection. 0 five 0 n FM2.1 / four 5 76 Qy eight Fy2.2 Yu .// -five / 7 -ETC srig.Z ; o j | i J  p. L g- / 7 nineteen