SU920450A1 - Device for bend testing of elastic material specimens - Google Patents

Description

The invention relates to testing materials and can be used in testing leather, artificial films, textile materials, paper and other flexible materials for bending. ⁵

A device is known for testing i samples of materials for bending, comprising a two-shouldered balance beam with a cargo cup, under which a ring-shaped sample is supplied on the platform. With a periodic drop of metal balls of a given mass into the cargo bowl, the latter, dropping, affects the sample [1].

The disadvantages of this device are low accuracy due to undesirable preliminary deformations of the sample and the long duration of the tests. 20

The closest to the invention in terms of technical essence and the achieved result is a device for testing samples of elastic materials for bending to a tensile testing machine, containing a quadrangle-mounted in the active gripping of the tensile testing machine. a frame with a groove in one of the links with rollers mounted along its edges, a loading mechanism connected to the passive gripper of the tensile testing machine and placed in the groove between the rollers, and a recording device connected to one of the grips of the tensile testing machine [2].

The disadvantage of this device is the inability to test samples of small sizes.

The aim of the invention is to provide testing samples of small sizes with a width of less than .30 mm

This goal is achieved by the fact that the loading mechanism is made in the form of two plates pivotally connected at one end with a rod connected to the passive gripper of the tensile testing machine, and the device is equipped with an elastic car

920 450 with 4 mans to hold the sample connected to the other ends of the plates.

. In addition, the device is equipped with two additional rollers fixed on the frame between the main rollers and the passive gripper of the tearing machine ₅ , the distance between which is less than the distance between the main rollers.

The drawing shows a diagram of the described device.

The device comprises a quadrangular frame 1, having in one of the links a groove with rollers-2 and an additional-. 3 ”rollers mounted on the frame 1 ts between the rollers 2 and the passive gripper of the tensile testing machine (not shown in the drawing). A loading mechanism is placed in the groove between the rollers 2 and the additional rollers 3 in the form of plates 4 20 and 5, one ends of which are connected by a hinge 6 and are connected by a rod 7 with a passive gripper of a tensile testing machine (not shown). A pocket 8 is made with the other ends of the plates 4 and 5; it is made of soft elastic fabric, for example acetate, whose bending stiffness is many times less than that of the material of the test sample 9, which is placed 30 in pocket 8. The device contains also a force meter 10 connected to one of the machine grips. The distance between the additional rollers 3 is set based on triple _{m of the} thickness of the test sample plus 0.5-1.0 mm The design of the frame 1 provides for the adjustment of the distance between the rollers, this is necessary for testing samples of various thicknesses.

The device operates as follows.

Frame 1 is installed in the active gripper of the tensile testing machine, the sample 9 is inserted into the pocket 8 in the desired direction, the rod 7 is inserted between the rollers 2 and 3 and connected to the passive gripping of the tensile testing machine. The frame 1 is moved by means of an active grip, and under the action of the main rollers 2 and then the additional rollers 3, the plates 4 and 5, turning in the hinge 6, are connected. Connecting, the plates 4 and 5 act on the pocket 8 with the sample 9 so that the latter gradually bends. On the scale of the force meter 10, the value of the force required for bending the sample is recorded. Maximum force is achieved by crushing the sample in half until a crease is formed.

The device can be used not only in load mode, but also in unloading mode, i.e. provides a multi-cycle test necessary to study the fatigue properties of the material. The device allows you to test samples of elastic materials of small sizes for bending and folding in various directions.

Claims (2)

The invention relates to the testing of materials and can be used in the testing of leather, artificial films, textile materials, paper and other elastic materials for bending. A device for testing specimens of materials for bending, containing two shoulders of a balance with a cargo cup, under which a ring-shaped sample is applied, is known. When periodic metal balls of a given mass fall into the cargo bowl last, lowering will affect the sample 1). The disadvantages of this device are low accuracy due to undesirable preliminary deformations of the sample and a longer test duration. The closest to the invention to the technical essence and the achieved result is a device for testing samples of elastic materials for bending to a tensile machine, containing a quadrangular frame installed in the active grip of the tensile machine, having a slot in one of the links with rollers loading, connected to the passive gripping of the bursting machine and placed in the groove between the rollers, and a recording device connected to one of the grips of the bursting machine 2. A disadvantage of this device is the inability to test samples of small sizes. The aim of the invention is to provide tests for small specimens with a width of less than .30 mm. This goal is achieved by the fact that the loading mechanism is made in the form of two plates pivotally connected at one end with a thrust connected to the passive grip of the bursting machine, and the device is equipped with a pocket made of elastic material for holding the sample connected to the other ends of the plates. In addition, the device is provided with two additional rollers fixed on the frame between the main rollers and the passive gripping of the tearing machine, the distance between which is less than the distance between the main rollers. The drawing shows a diagram of the device being described. The device has a quadrangular frame 1, having in one of the links a groove with rollers-2 and additional rollers 3 fixed on the frame 1 between the roller “1 2 and the passive gripping of the bursting machine (not shown). In the groove between the rollers 2 and the additional rollers 3 by placing the loading mechanism in the form of plates A and 3f, one ends of which are connected by a hinge 6 and connected by means of a pull 7 with a passive gripping tensile machine (not shown). A pocket 8, made of a soft elastic fabric, for example acetate, is connected to the other ends of the plates and 5; its bending stiffness is many times less than that of the material of the test sample 9 placed in the pocket 8. The device contains both. the same force measuring device 0, connected to one of the machine grippers. The distance between the additional 1 rollers 3 is set at the rate of threefold tolcine of the test sample plus 0 mm. The frame design 1 involves adjusting the distance between the rollers; this is necessary for testing samples of different thickness. The device works as follows. Frame I is placed in the active grip of the bursting machine, sample 9 is placed in pocket B in the desired direction, and traction 7 is inserted between rollers 2 and 3 and connected to the passive grip of the bursting machine. The frame 1 is moved by means of an active gripper, and under the action of first the main rollers 2, and then the additional rollers 3, the plates 4 and 5 turning in the hinge 6 are joined. The connecting plates and 5 act on the pocket 8 with the sample 9 so that the latter gradually bends. On the scale of the force gauge 10, they fix the sign of the wuxi 9 0 LIA necessary for the bending of the sample. The maximum force is achieved (5 and smashing the sample in half until a fold is formed. The device can be used not only in load mode, but also unloading, i.e., it provides a high-cycle test necessary to study the fatigue properties of the material. The device allows for the testing of samples of elastic materials dimensions for bending and folding in different directions., Invention 1. Device for testing samples of elastic materials for bending to a tensile machine, containing an The quadrangular frame, which is in active engagement of the bursting machine, has a groove in one of the links with rollers installed along its edges, a fur | Nizm loading, connected with a passive gripping of the bursting machine and) placed in the groove between the rollers, and One of the grippers of the tensile machine, characterized in that, in order to ensure the testing of specimens of dimensions less than 30 mm wide, the loading mechanism is made in the form of two plates hinged and connected at one end - and with a pull connected to a passive gripper the device is equipped with an elastic material pocket for holding the sample, which is connected to the other ends of the plates. 2. The device according to claim 1, T T of the fact that it is provided with two additional rollers fixed on the frame between the axial rollers and the passive grip of the bursting machine, between which there are less additional distances between the axial rollers. Sources of information, rin t, taken into account during the examination 1. The skin is artificial and plastic materials. Methods for determining stiffness and elasticity. GOST. 2. Karton shoe. The method of determining stiffness and bending resistance in static bending. GOST 9187-7 (prototype).