RU2282172C1 - Device for fast determining of mechanical characteristics of flexible materials - Google Patents

Abstract

FIELD: test engineering.

SUBSTANCE: device comprises housing that receives the rod mounted for permitting movement with respect of the housing and stop. The rod is locked by means of the locking member and tightening spring. The front arrester of movements is provided with a pressure gage covered with a flexible hemisphere and connected with the microcontroller. The rod is made of nonmagnetic material and provided with the small-size permanent magnets embedded into its top side at the same distance one from the other. The bottom side of the rod is provided with the locking hollows. The magnetically sensitive movement pickup is mounted above the rod and sends the signal to the microcontroller connected with the indicator.

EFFECT: reduced sizes and simplified service.

1 cl, 1 dwg

Description

The invention relates to testing equipment in the field of studies of the physical and mechanical properties of a material, and in particular, to devices for determining the mechanical characteristics of elastoplastic materials. The introduction of the claimed device is planned in chemical production with the release of products from polymeric materials, foam rubber, mineral wool, etc.

Currently, the urgent problem is the quick selection of the highest quality samples of elastic materials from a variety of stored together (for example, in a warehouse), produced using various technologies or with varying degrees of aging. Also urgent is the task of express quality control of produced elastic materials in order to quickly adjust their manufacturing technology.

The authors know a device for determining the mechanical characteristics of elastic materials, including a conical tip in the form of three coaxial parts, depending on the hardness of the material into which this tip is embedded [A.S. USSR No. 1835501, IPC G 01 N 3/42, publ. 08/23/93, bull. No. 31].

The disadvantage of this device is that it is effective for determining the hardness of wood and ineffective for determining the indicated properties of products from polymeric materials, foam rubber, mineral wool.

When using the device, only the range in which the hardness of the object is located (within the hardness of the wood, above or below it), without assessing the hardness within this range.

A complex assessment (by one device) of the mechanical strength, elasticity and ductility of the material is excluded.

The authors know a device for assessing the mechanical characteristics of elastic materials, in which two cylindrical indenters of different diameters are used. The hardness of the material is determined by pressing a spherical or cylindrical indenter with a diameter D with a force P with a diameter D followed by measuring its immersion depth H and calculating the elastic modulus E using the well-known formula E = f (P, D, H) [Russian Patent No. 20022237, IPC G 01 N 3/00, publ. 10/30/93, Bull. No. 39-40].

A disadvantage of the known device is the lack of a comprehensive assessment of the mechanical characteristics of elastic materials:

- when measuring the modulus of elasticity at the same time do not evaluate the plastic characteristics of the material, or its mechanical strength.

In addition, the device is inconvenient in operation, with its help it is difficult to measure the performance of the material at the place of storage of products, which complicates the testing process. During the test process, only initial data are obtained, and the elastic modulus is determined indirectly: by calculation, which increases the time of express control.

As a result, out of many material samples, the reliability of choosing a high-quality sample in all parameters will be low, and when the material is released, the technology for manufacturing and rejecting low-quality samples will be adjusted with a time span, which will affect the quality of the products.

The closest in technical essence is a device for determining the ductility and viscosity of elastic materials, containing a housing, inside which there is a rod, fixed by means of a spring, mounted with the possibility of its movement relative to the housing and stop, connected with a displacement sensor that signals to the microcontroller connected to the information scoreboard [A.S. USSR No. 1824536, IPC G 01 N 11/16, publ. 06/30/1993 Bul. No. 24]. This device is stationary. It has low mobility and portability. Time-consuming to operate. The disadvantages of the known device are the lack of the ability to comprehensively assess the mechanical characteristics of elastic materials, including strength and elasticity. In the known device, when measuring plasticity, a test specimen of certain geometrical dimensions is exposed and the plasticity and viscosity of the specimen are calculated from the change over time of these sizes and force. In this case, additional time is required for the manufacture of the sample and its delivery to the place of study. Evaluation is carried out according to a special program, which increases the duration and complexity of determining indicators, makes it difficult to reflect the fast-moving dynamics of elastic characteristics.

The objective of the present invention is to improve the device for the rapid assessment of the mechanical characteristics of elastic materials, which will allow you to comprehensively evaluate (with one device) the strength, elasticity and plasticity of the material, while the developed device should be small-sized, portable. Allows you to quickly and accurately test the material properties of finished products or samples at the place of storage or manufacture, without spending time on the manufacture of a special test sample. Due to the indicated properties of the device, the test time of the material will be reduced, the complexity of the test process will be reduced, as a result, a high-quality sample will be selected faster from many material samples, and when the material is released, the manufacturing technology will be adjusted more quickly and low-quality products (samples) will be rejected, which will increase the quality of the produced and products sold.

The problem is solved due to the fact that in the device for a quick assessment of the mechanical characteristics of elastic materials containing a housing, inside which there is a rod fixed by means of a spring, with the possibility of its movement relative to the housing and stop, connected with a displacement sensor that sends a signal to the microcontroller associated with information board, according to the invention, the rod is made of rectangular cross section, is equipped with front and rear travel stops, the position of the rod is fixed with a trigger, tightening pressure spring, a pressure sensor is installed on the front travel limiter, covered with an elastic hemisphere filled with air and connected to the microcontroller by means of a flexible cable passing inside the rod, the latter is made of non-magnetic material with small-sized permanent magnets mounted in its upper face at an equal distance from each other , locking recesses are made on the lower face, a magnetically sensitive sensor is located above the stem, which sends a signal to the microcontroller.

Thanks to the use of a pressure sensor installed on the end of the rod, when the latter is pressed into the material to be studied, a signal is sent about the applied force to the material being studied in the microcontroller, which accumulates data and displays them on the information board. The claimed device will allow you to measure the instantaneous values and the rate of change of the force (pressure) with which the material resists the pressing of a foreign body (rod) into it, and based on these values to evaluate the mechanical characteristics of the elastic material.

Research is conducted at the place of storage or manufacture of the material. It is not necessary to resort to the manufacture of the test sample. The device reflects the fast-moving dynamics of the elastic characteristics of the material.

To assess the mechanical strength at the beginning of the fracture of the material, the length of the extended part of the rod relative to the initial surface of the material is measured at the time of the cessation of pressure growth during gradual indentation of the rod into the material. The initial surface is fixed by a stop, which is a plate of such dimensions that, with the rod extended as far as possible, the edges of the plate lie on the non-curved surface of the material sample under study.

To measure and display on the information board the length of the extended part of the rod, the device is equipped with a microcontroller that counts the number of pulses from the magnetically sensitive sensor.

For a comparative assessment of different materials in terms of elasticity, it is necessary to fix the rod in a certain position, for this purpose a fixing device from locking recesses, trigger, spring and stop is intended.

To assess the plastic properties of the material, it is necessary to measure the speed of the rod and its change as the rod returns to its original state, for this the device is equipped with a microcontroller that calculates the speed of the rod by the frequency of pulses from the magnetically sensitive sensor.

The measurement results can be observed directly at the test site, for which the information board is intended, or save these results in the memory of the microcontroller and then transfer them to the computer through the connector.

The presence of an elastic, air-filled hemisphere will allow the use of a miniature pressure sensor and average the pressure exerted by the material over the entire area of the front plane of the rod, regardless of the structure of the material being studied.

The execution of a rod of rectangular cross-section will ensure reliable fixation of the rod in the selected position and reliable operation of the magnetically sensitive sensor due to the unchanged trajectories of the movement of the locking recesses relative to the trigger and small permanent magnets relative to the magnetically sensitive sensor.

The manufacture of a rod from non-magnetic material with small-sized permanent magnets mounted in its upper face at an equal distance from each other will allow the microcontroller to calculate the length of the extended part of the rod and the speed of the rod - by counting the number and frequency of operation of the magnetically sensitive sensor when small-sized permanent magnets move past it.

The drawing shows the design of the device.

The device comprises a housing 1 with a handle 2 and a thrust plate 3, a rod 4 of rectangular cross-section with movement stops 5 freely slides inside the housing, a pressure sensor 6 is installed on the front limiter, covered by an elastic hemisphere 7 filled with air, an electrical signal from the sensor 6 enters the housing 1 to the microcontroller 8 via a flexible cable passing inside the rod 4. The rectangular rod is made of non-magnetic material, and small-sized components are mounted at the same distance from each other in its upper face s permanent magnets 9, and the lower face has the locking recess 10. The position of rod 4 fixed by the trigger 11, rotating about an axis 12, a tension spring 13 and the abutment 14; when the hook 11 is pressed, the rod 4 moves under the influence of the test material 15. In the case 1 above the rod 4 there is a magnetically sensitive sensor 16, the signal from which is processed by the microcontroller located in the case 1 and displayed on the information board 17, and can also be read from the microcontroller 8 into a computer connected via connector 18. The power to the device is supplied using the switch 19, reset, the selection of the displayed parameter and the recording of the measurement results in the microcontroller is done using buttons 20.

Using the invention will allow to determine the mechanical characteristics of materials in almost any conditions with high accuracy and high productivity.

The device operates as follows.

A quick assessment of the mechanical characteristics of elastic materials is carried out in the following sequence.

When assessing the mechanical strength of the material, the device is applied by a thrust plate 3 to the sample of elastic material (for example, foam rubber) 15, the rod 4 is in the initial position - pressure sensor 6 near the body. The rod 4 is gradually pressed into the material 15. In this case, the growing pressure detected by the pressure sensor is displayed by the microcontroller 8 on the information panel 17. At the same time, the microcontroller 8 calculates and simultaneously displays on the information panel 17 the length of the extended part of the rod 4 by counting pulses from the magnetically sensitive sensor 16. B at some point, the pressure stops growing due to the destruction of the material. The length of the extended part of the rod 4, shown on the panel 17, is indicative of the mechanical strength of the material. The most durable sample is selected according to the maximum length of the extended part of the stem.

After assessing the strength of the material proceed to assess the elasticity of the material. Why the rod 4 from the immersed state in the material is returned to its original state, again press it into the material 15 in a new place to the thrust plate 3 and hold in this position. The pressure shown on the bulletin board 17 characterizes the elasticity of the material. The most elastic sample is selected by the maximum pressure value.

When assessing the plastic properties of the material, the stem 4 is held in a depressed state. Press the trigger 11, while the rod 4 is returned to its original position under the action of the elastic force of the material 15, the instantaneous pressure values, as well as the corresponding positions of the rod 4 and the instantaneous values of its speed, recorded by the microcontroller 8 by counting pulses from the magnetically sensitive sensor 16, are entered in the memory of the microcontroller 8. After reducing the pressure to the minimum values on the scoreboard 17, the time of the return movement of the rod 4 and the residual irreversible deformation, determined by the remaining extended parts of the rod 4, which characterize the plastic properties of the material. The best sample with minimal ductility is selected according to the minimum values of the return time and residual deformation. Further, if a more detailed assessment is necessary, the measurement results are stored in the microcontroller using buttons 20, the device is connected to the computer through the connector, the saved data is transferred to it, and a graph of the change in the stem velocity during the return time is observed.

Thus, the proposed device will provide simplicity of measurement, mobility and complexity of the study of elastoplastic materials, which are necessary for a qualitative assessment of the material in laboratory and industrial conditions.

Claims (1)

A device for quickly assessing the mechanical characteristics of elastic materials, comprising a housing, inside which a rod is fixed, fixed by means of a spring, mounted for movement relative to the housing and an abutment, connected to a displacement sensor, signaling to the microcontroller associated with the information board, characterized in that the rod made of rectangular cross section, equipped with front and rear travel stops, the position of the rod is fixed with the trigger and a tightening spring, on There is a pressure sensor installed on it, covered by an elastic hemisphere filled with air and connected to the microcontroller by means of a flexible cable passing inside the rod, the latter is made of non-magnetic material with small-sized permanent magnets mounted in its upper face at an equal distance from each other, on the lower face the stopper grooves are made, a magnetically sensitive sensor is located above the stem, giving a signal to the microcontroller.