RU17621U1 - DEVICE FOR TESTS OF VISCOELASTIC AND PLASTIC MATERIALS - Google Patents

Abstract

A device for testing viscoelastic and plastic materials, including a housing, a lever mechanism, a screw device for selecting backlash, characterized in that the lever mechanism consists of one two-shouldered lever with two places of application of loads to the test specimens and the application of load with interchangeable weights suspended from its long shoulder moreover, the application or removal of the load is provided using a jack acting on the long arm of the lever from the side of the suspension of goods.

Description

DEVICE FOR TESTS OF VISCOELASTIC AND PLASTIC MATERIALS

The utility model relates to a technique for testing various materials to determine the strength, deformation and relaxation properties, both when tensile, bending, and compressive forces are applied.

The prior art is as follows: A known installation for determining the tensile strength in bending of cement samples (a.s. 443279 G01N 3/20), including a housing, a double wishbone loading mechanism with electric drive, as well as a force measuring device.

The known installation does not provide test conditions close to the actual operating conditions of the materials, as it has a device that sets the speed and magnitude of deformation, is not designed to operate at low temperatures, has a complex structure with a balancing system, electric drive and transmission, as well as low universality. The installation is designed to determine only the tensile strength of materials similar in properties.

The essence of the utility model is as follows: The utility model is aimed at solving the problem of determining the deformation and relaxation characteristics of viscoelastic materials of different nature (asphalt concrete, bitumen, polymer-composite materials, adhesive compounds, alloys) under a wide range of constant loads and temperatures.

The solution of the problem is mediated by a new technical result: the conditions of material loading are found that are close to natural by applying a free tensile or compressive load through a lever system with weights, without a given specimen deformation rate. The device has a simple lever circuit without electromechanical or hydraulic devices, which allows you to apply a constant or variable load (by hanging, removing and moving tared loads). When testing materials, only deformations of the sample in time are recorded, moreover, the rate of deformation of the sample or indentation

G 01 N3 / 08

stamp, is determined primarily by the properties of the sample material. The device can operate at any temperature (both negative and positive) and uses various ready-made mechanical devices or remote electric sensors to measure and fix deformations over time.

Salient features:

The presence of a housing, a lever mechanism, a screw device for the selection of backlash Significant differences:

The lever mechanism consists of one two-shouldered lever with two places of application of loads to the test specimens, (it is possible to apply tensile and compressive loads by using both lever arms), and the load is provided with removable loads, and the application or release of the load is provided with a jack acting on a long the lever arm from the suspension side of the cargo, and during testing only the deformations of the samples are measured.

The device diagram is shown in FIG. 1.

The device consists of a swing arm 1, pivotally mounted on a stand 2, which is rigidly mounted on the base 3. To increase stability on the base 3 can be provided with support jacks 4.

On the long arm of the lever 1 there are side brackets 5 to which weights 6 of various weights are suspended in the required combinations. The lever 1 has two short shoulders (on different sides of the rack 2) on which there are suspensions 7, adjustable in length with nuts 8, for the upper grip of samples requiring tensile force, and on the other side of the rack 2, the device 10, which is a tubular guide with interchangeable variable-length rods for tests requiring compressive force. On the base 3 under the suspensions 7 there are openings 9 for the lower gripper rods for tensile testing, and a table 12 for installing devices and specimens that require compressive or bending forces.

To keep the lever 1 in the idle position, smoothly put into operation under load and exit from the working position, a screw jack 13 is installed on the base 3, controlled by the handwheel 14 and having its own base 15, allowing the jack to be moved relative to the base 3.

.it m m p On the upper shelf of the lever 1 there is a graduated scale for the precise installation of additional or regulatory weights 16. The device operates as follows: the tensile test specimen is clamped into removable grips of the required design, which are fixed between the rods 7 and holes 9. The sample for tests for compression, bending, or for stamping (penetration) tests are installed in the fixture on the table 12. The rods or rod for the corresponding type of test are adjustable in length so as to select the gaps in the systems e transfer of effort. Sensors or instruments are installed on fixtures and samples (for example, dial gauges) and, as a rule, “O. The required loads are hung on the lever 1. The stem of the jack 13 is carefully lowered until it comes out of contact with the lever 1 until the sample is under the full required load. Next, deformations are counted in time to the required moment. After that, the lever 1 is turned off from work by means of the jack 13, according to the schemes: “complete release of the load (the lever is lifted by the jack) or“ suspension of deformation (the jack rests on the lever until the first reverse oscillation of the arrow of the device fixing the longitudinal deformation). If required by the test scheme, the load changes, and the lever is again included in the work. When the tests are completed, the lever 1 of the work is turned off completely. Loads and fixture with a sample are removed. The device has the following advantages: -simplicity and reliability of the structure, due to the lack of a mechanical loading drive, an elastic link between the loading mechanism and the lever, power drives requiring energy input; -reliable work, both at negative and at elevated (positive) temperatures; -the ability to carry out various types of tests without changing the design, requiring both tensile and compressive forces in a wide range of loads (tensile, compression, bending of samples, stamp and penetration tests) and determine the limits of compressive, tensile, and tensile bending strengths; creep, Young's modulus,,, -9 f / 4 ,,

Poisson's ratio, viscosity, relaxation at different temperatures.

- The device is tested in laboratory conditions and can be used in production processes.

Head of technical department. N.P. Coal

Claims (1)

A device for testing viscoelastic and plastic materials, including a housing, a lever mechanism, a screw device for selecting backlash, characterized in that the lever mechanism consists of one two-shouldered lever with two places of application of loads to the test specimens and the application of load with interchangeable weights suspended from its long shoulder moreover, the application or removal of the load is provided using a jack acting on the long arm of the lever from the side of the suspension of goods.