RU2698738C1 - Apparatus for testing samples for uniaxial compression of materials mainly of vegetable origin - Google Patents

Abstract

FIELD: test equipment.

SUBSTANCE: invention relates to technique of investigation of deformation-strength properties of materials, mainly of vegetable origin. Installation comprises a fixed housing with two opposed supports located on it with support surfaces transverse to the compression line for attachment of the analyzed sample between them, each support has a centrically located relative to compression line retainer for analyzed sample with a part protruding in front of the supporting surface, at least one of the supports is movable and connected to the drive of its movement along the compression line, as well as the measurement device, including the automated one, of the current values of deformation-strength compression characteristics. At that, the installation has limit stop of supports and the protruding part of the retainer for the sample of each support is thin-wall plates, including blade type, located radially, besides, directions of their middle planes are combined with the compression line, and height of plates above the support surface is 0.05–0.30 of diameter of analyzed sample.

EFFECT: technical result is higher accuracy of results of deformation-strength compression tests for elongated samples of materials mainly of vegetable origin.

1 cl, 5 dwg

Description

The invention relates to techniques for studying the deformation-strength properties of materials, mainly of plant origin. It can also be used for similar research studies of other products of biological origin with the cellular structure of materials.

A known installation for testing coil springs for uniaxial compression, including a fixed housing with two opposed supports placed on it with support surfaces transverse to the compression line 4 for fixing the test spring between them, each support has a clamp of the test sample centrally located relative to the compression line with a protruding front supporting surface part, at least one of the supports is movable and connected to the drive of its movement along the compression line. The latch is a round protrusion that prevents lateral displacement of the spring (RF patent No. 2412430 from 2008-12-15, G01N3 / 32). The disadvantage of this device is the impossibility of its use for testing samples from materials of predominantly plant origin, since they are cut out of the cell structure filled with cell liquid and form a liquid film on the contact surface that facilitates the slipping of the sample from the supports.

A device for uniaxial compression is also known, having a centrally located relative to the compression line clamp of the test sample with a part protruding in front of the supporting surface. The latch is made in the form of an annular collar, which tightly covers the test sample at its ends (RF Patent 2,523,769 dated 03.12.2012, G01N 3/10). Its disadvantage is the limitation of the support thickening of the sample during compression, causing distortion of stresses and test results in it.

A device for compressing samples of plastic materials is also known, in which the latch centrally located relative to the compression line is made in the form of a round plate protruding above the supporting surface of the part (SU 1 024 800 from 12.28.81, G01N 3/56). With his flat protrusion, he crushes the central part of the sample, which will significantly distort the test results.

In the aggregate of technical features common with the claimed installation, the RF patent No. 2,412,430 was adopted for the prototype.

The technical result of the invention is to improve the accuracy of the results of deformation-strength tests for compression of elongated samples of materials mainly of plant origin.

This result is achieved in that the installation for testing samples for uniaxial compression of materials of predominantly plant origin includes a fixed body with two opposed supports placed on it with support surfaces transverse to the compression line for fastening the test sample between them, each support is centrally located relative to the compression line the clamp of the test sample with a part protruding in front of the supporting surface, at least one of the supports is movable and connected it is driven by its movement along the compression line, as well as a device for measuring, including automated, the current values of the deformation-strength characteristics of compression. At the same time, the installation has a limiter for the approach of the supports and the protruding part of the sample holder of each support is a thin-walled plate, including a blade type, located radially, and the directions of their median planes are aligned with the compression line, and the height of the plates above the supporting surface is 0.05-0 , 30 diameters of the test sample. In addition, thin-walled plates on opposed supports can be rotated around the compression line relative to each other so that when the supports are closed, they are in the gaps between the plates of the opposed support.

The presence in the installation of a limiter for the proximity of the supports prevents contact of the plates of the opposite supports with each other or with the opposite support. The execution of the sample retainer in each support in the form of thin-walled plates, including in the form of blades, increases the reliability of preventing the elongated sample from slipping out of the supports. The installation with the turned plates of one support relative to the plates of the other makes it possible to bring the supports closer to the size of a thin-walled plate, which increases the deformation of the compressible sample and expands the volume of recorded deformation-strength results.

The invention is illustrated by five figures.

In FIG. 1 shows a setup diagram with a sample; FIG. 2 — cutout A, FIG. 3 — view B with elongated specimen retainer plates and a contour of the end surface of the specimen, FIG. 4 - view B with shortened plates of the sample retainer and with the contour of the end surface of the sample, in FIG. 5 - view B with the closest approach of the supports.

The unit for testing samples for uniaxial compression of materials of predominantly plant origin includes (Figs. 1–3) a fixed body 1 with two opposed supports 2 and 3 placed on it with support surfaces 5 and 6 transverse to the compression line 4 for fixing the test sample between them 7. Each support 2 and 3 has a clamp of the test sample centrally located relative to the compression line 4 with a part protruding on the supporting surface 5 and 6. At least one of the supports, for example, the 2nd, is movable and connected to the drive 8 of its movement along the compression line 4. Actuator 8 may be manual, electrical, or hydraulic. There is a device for measuring 9 current values of the deformation-strength characteristics of compression, which can be contact or non-contact. The installation is equipped with a limiter 10 for the rapprochement of the supports 2 and 3. The protruding part of the sample holder in each support is a thin-walled plate elongated 11 or shortened 12, which can be made in the form of blades. The plates 11 and 12 are arranged radially, and the directions of their median planes are aligned with the compression line 4. The height of the plates h above the supporting surface is 0.05–0.30 of the diameter d of the test sample. The elongated plates 11 protrude beyond the end surface of the sample (Fig. 2 and Fig. 3), and the shortened plates 12 remain inside it (Fig. 4). In FIG. 3 and FIG. 4, the initial position of the sample 7 on the supporting surface 5 is conventionally shown by a dashed-dotted contour 13 of its end surface. Thin-walled plates 11 or 12 on the opposed supports 2 and 3 can be rotated around the compression line relative to each other so that with the greatest approximation of the supports they are in the gaps between the plates of the opposed supports (Fig. 5). In FIG. 5 shows a view B at the maximum approximation of the supports 2 and 3. In this case, the plates 11 or 12 of the support 3 are conventionally shown by dashed lines, and the sample is not shown.

Installation works as follows.

In the stationary housing 1 between the supports 2 and 3, a sample 7 is mounted centrally along the compression line 4. The movable support 2 is brought to the sample 7 and brought closer to the opposite support 3 until the end parts of the sample 7 rest on the supporting surfaces 5 and 6. The immersion force of the plates 11 or 12 in the sample 7 is not significant in the total compression force due to their small cross section. After the plates 11 or 12 are completely immersed in the sample 7, the compression force is reset to zero on the device 9. Then, using the drive 8, the compression process of the sample 7 is performed with registration of the deformation-strength parameters and the construction of a compression diagram in automatic or manual mode. When compressing sample 7 from a compliant material, its cross section increases substantially. However, a sample 7 of a non-uniform malleable material remains in the zone of elongated plates 11, ensuring its central position. Testing of specimen 7 made of rigid material is preferably carried out in supports 2 and 3 with shortened plates 12. In this case, its peripheral end parts remain integral without changing the test results. The approach of the supports 2 to 3 is stopped either after the destruction of the sample 7 by brittle splitting with a decrease in the compression force to zero, or the drive 8 is stopped with the help of the limiter 10, which prevents the vertices of the plates 11 or 12 from contacting the opposed supports or supporting surfaces 5 and 6.

Claims (2)

1. Installation for testing samples for uniaxial compression of materials mainly of plant origin, consisting of a fixed casing with two opposed supports placed on it with supporting surfaces transverse to the compression line for fastening the test sample between them, each support has a clamp of the test a sample with a part protruding on the supporting surface, at least one of the supports is movable and connected to the drive of its movement along the compression line a device for measuring the current values of the deformation and strength characteristics of compression, characterized in that the installation has a limiter for approaching the supports, the protruding part of the sample retainer in each support is thin-walled plates arranged radially, and the directions of their median planes are aligned with the compression line and the height of the plates above the supporting surface is 0.05-0.30 of the diameter of the test sample. 2. Installation for testing samples for uniaxial compression of materials mainly of plant origin according to claim 1, characterized in that the thin-walled plates on the opposite supports are rotated around the compression line relative to each other by such an angle that when the supports are most close, they are in the spaces between the plates of the opposite supports .

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