RU194801U1 - Detachable mold for the manufacture of a sample of polymer dental material - Google Patents

Abstract

The utility model relates to medicine, namely to dentistry, and can be used for scientific purposes, namely, to obtain samples of polymer dental restoration materials for studying their microstructural features of the relief and chemical elemental composition. The device includes two shape blocks that have semicircular recesses identical in each of the blocks. The holes are made in the blocks for screws, by means of which, using pair screws, the blocks are tightly connected to each other. The recess formed in the center is filled with light-cured dental material designed to study its properties. The uniformity of the samples obtained guarantees reliable results of comparative characteristics in the study of dental materials. It is impossible to achieve such an effect without using the form developed by us. It is also possible to study the entire surface of the sample without cutting it into parts and without losing part of the material being studied. In addition, there is no need to use specialized forms of the sample holder, since the size of the obtained sample suitable for the standard form included with the scanning electron microscope.

Description

Detachable mold for the manufacture of a sample of polymer dental material

The utility model relates to medicine, namely to dentistry, and can be used for scientific purposes, namely, to obtain samples of polymer dental restoration materials to study their microstructural features of the relief and chemical elemental composition.

From the existing level of technology there is a method of preparing a biological sample for research using scanning electron microscopy [US Pat. RU 2578977]. The invention provides the opportunity, when conducting scanning electron microscopy with satisfactory contrast, to observe the microrelief of a biological object and the structure of the subsurface layer of biological tissue without resorting to preliminary dehydration or fixation. As a contrast agent, an isotonic aqueous solution of one of the rare earth chlorides or a mixture thereof is used, and the sample is subjected to supravital contrast with an exposure of 20 minutes to 6 hours.

Known methods for preparing samples of biological tissues for examination by scanning electron microscopy by drying using the critical point transition method, freezing-drying, drying in vacuum and drying in air [Microscopic technique: Manual / ed. D.S. Sarkisova and Yu.L. Perova. - M: Medicine, 1996. - p. 247-250].

A known method of preparing samples of biological tissues for research in a scanning electron microscope, including fixing, washing and dehydration. After dehydration, without drying, the samples are transferred to a mixture of dehydrant and camphene, then they are sequentially impregnated in two portions of molten camphene at a temperature of 51-60 ° C; after soaking with camphene, the sample is dried in air [US Pat. RU 2397472 C1].

The disadvantages of these technical solutions is the need for special expensive equipment and reagents, otherwise this leads to a gross deformation of the structure of the sample. In addition, lengthy sample preparation causes difficulties in its application.

A known sample holder for a scanning electron microscope [US Pat. RU 58027], which contains a substrate with a thickness of 5 mm, made in the form of a circle with a diameter of 12.5 mm, a cylinder, a holder base with a threaded hole for the sample replacement rod. The product has a mounting screw of the substrate, cylinder, setting the height of the sample. The device allows you to record samples of long tubular bones of significant size and perform their research simultaneously using a scanning electron microscope and an electron probe microanalyzer.

The device does not allow pouring liquid samples of materials into it.

A known mold for the manufacture of restoration pads of composite light-cured dental material [US Pat. RU 2 606 272]. The device is a matrix of a flat or curved shape, containing at least one forming cavity, matching in shape with the shape of the cervical, vestibular or any other tooth surface, to the perimeter of which at least one branch channel is adjacent. At least one locking groove is in the matrix. The counterpart of the matrix is a stamp, it contains at least one protrusion, which is the counterpart of the forming cavity, congruent to it in shape. The stamp is made of a transparent or translucent material. On the stamp there is at least one fixing spike, designed to be fixed by entering into the fixing groove.

The device does not allow to obtain a cured dental material of sufficient volume to study its internal structure.

The problem to which the claimed utility model is directed is to develop a metal mold for preparing a sample of polymer dental material for studying the microstructural features of the relief and chemical elemental composition.

A detachable mold for preparing a sample for scanning electron microscopy contains a first mold block (1), a second mold block (2), round notches (3), identical in each block (1,2), screw holes for the first mold block (4 ), holes for screws of the second mold block (5), screw thread (6), screw body (7), screw handle (8).

The first block of the mold (1) can be made of durable material, for example, stainless steel. It is equipped with a recess (3) and two screw holes (6, 7, 8). The second block of form (2) is similarly arranged. Each of the holes (4, 5) is located on opposite faces of the blocks (1) (2).

A detachable mold for sample preparation for a scanning electron microscope is used as follows.

The first block (1) is connected to the second block of the mold (2) and, using the screw handles (8), the body of the screw (7) and its thread (6) are carried out sequentially through the holes for the screws of the first block of the mold (4), corresponding in diameter to the screw body and screw into the holes for the screws of the second block of the form (5), corresponding in diameter to the thread of the screw (6). Alternatively, the holes (4 and 5) may have an equal diameter or a stepwise decreasing diameter, respectively, of the diameters of the thread (6) of the screw body (7). The holes for the screws (4, 5) are made in the body of the blocks (1, 2) so as not to violate the integrity of the cavity formed when the blocks are connected (1,2).

Next, fill the filling material into the hole formed by the recesses (3) with a metal dental trowel and material is illuminated with the light of a polymerization lamp for 40 seconds from each of the two open sides of the sample.

In order to be able to carry out studies of whole long samples without breaking them, the screws are loosened and the sample is disconnected and the sample is removed.

The proposed utility model allows you to prepare samples equal to each other and specified by the researcher size, comparable with the size and density of the filling material in the tooth cavity. In this form, it is convenient to fully cure the material with light of a blue polymerization lamp with a wavelength of 450 nm, since the sample is clearly fixed by the form frames and the lamp fiber can completely cover the diameter of the sample. The resulting sample is convenient to remove from the mold, as the mold is detachable. The uniformity of the obtained samples guarantees reliable results of comparative characteristics in the study of dental materials. Such an effect cannot be achieved without the use of the form developed by us.

It is also possible to examine the entire surface of the sample without cutting it into parts and without losing part of the test material.

In addition, there is no need to use specialized forms of the sample holder, since the size of the resulting sample is suitable for the standard form that is included with the scanning electron microscope.

Description to figures

Figure 1. Detachable stainless steel mold with two screw clamps.

1 - the first block of the form;

2 - the second block of the form;

3 - rounded notches;

4– holes for screws of the first mold block;

5 - holes for screws of the second mold block;

6– screw thread;

7 - screw body;

8 - screw handle.

Claims (1)

A detachable mold for preparing a sample of polymer dental material for scanning electron microscopy, including detachable blocks, screw holes and screws, characterized in that the semicircular recesses are made in the center of the blocks, forming a cylindrical cavity when connecting the blocks; holes for the screws are made in the body of the blocks in such a way as not to violate the integrity of the cavity formed when the blocks are connected.

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