Purpose and universal properties of gypsum for orthopedic dentistry

2067

Gypsum is formed as a result of drying out water bodies by deposition of sediment from compounds saturated with sulfate salts, or by weathering of rocks.

This material, created by nature, is considered to be the most common auxiliary mass in dentistry, the demand for which has not decreased over the years due to its beneficial properties.

A little bit of history

People knew about its unique properties back in ancient times. Gypsum was originally used as a building material. Even before our era, it was used in Egypt for the construction of pyramids and other architectural structures.

Mass mining of the material began around the 12th–13th centuries. ad. Based on water, it began to be used throughout construction for plastering and finishing work. Various architectural elements were made from gypsum.

In the middle of the 19th century, or more precisely, at the height of the Crimean War, the Russian surgeon N. I. Pirogov was the first to use plaster mass during the treatment of bone fractures received from a gunshot wound.

To fix the bone fragments, he used bandages soaked in liquid plaster. A similar technique is actively used in surgery today.

In orthopedic dentistry, gypsum has a wide range of applications. For a long time it remained the only impression material.

In dental prosthetics, the material is necessary when plastering wax bases with artificial units in a cuvette and models in an occluder, and in the manufacture of metal dentures - to obtain a stamp sample. When making bridge systems, the technician uses plaster to temporarily hold teeth and crowns together .

The material can be used as a modeling material, when all elements are molded from it before casting a metal prosthesis. Extra finely ground gypsum powder is often used for polishing finished prosthetic structures.

Description of material

In nature, the material is an aqueous potassium sulfate salt. In other words, it is a mineral whose crystal lattice is layered, distinguished by the regular arrangement of atoms.

The crystals are colorless and almost transparent, but due to the presence of various impurities (usually quartz, clay, carbonates, pyrite), they have a pink, yellow or black tint. The material is extremely rare in nature without impurities.

To obtain semi-aqueous gypsum, the natural composition is purified from all kinds of impurities. Then it is crushed in special crushers to a powdery state, loaded into boilers and fired for 10-12 hours at 150-190°C.

Based on how much and at what pressure and temperature the gypsum was fired, different grades of it are obtained, differing in strength and hardening period.

You can get plaster of two modifications:

  1. α-gypsum. The structure is durable, has a small specific surface area, low water requirement, high strength and a long setting period.
  2. β-gypsum. It is characterized by pronounced reactivity, a wide internal surface, low strength compared to α-gypsum, and requires a larger volume of water for dissolution.

As a dental material, plaster has the following characteristics:

  • available;
  • allows you to obtain accurate impressions;
  • safe;
  • tasteless and odorless;
  • fragile;
  • very low shrinkage rate;
  • insoluble in saliva;
  • does not swell when wetted with water;
  • Easily removed from models using simple release agents (for example, soap solution).

What is dental plaster

To understand the essence of what this dental material is, what stages of processing it goes through before starting to manufacture structures from it, it is worth finding out how it differs from natural gypsum and how it is obtained.
The territory of Russia is rich in minerals, including gypsum, the main deposits of which are concentrated in the Tula, Irkutsk regions, Perm and Krasnodar territories.

When mined, it appears as solid crystals of green, pink, yellow or brown. Pure gypsum is colorless, but due to the admixtures of quartz, pyrite, carbonates, and clay, this natural material acquires color. It is extremely rare without impurities.

Before plaster becomes suitable for use in dentistry, it undergoes special processing. It needs to be converted from its natural state - calcium sulfate dihydrate - to calcium sulfate hemihydrate. To do this, the material is crushed to a powder state. The crushing process in the mill is accompanied by simultaneous heating.

Main methods of obtaining:

  • under conditions of high pressure - in an autoclave, for 6 hours at a temperature of 120-124 °C. After this, the material is dried, resulting in α-hemihydrate;
  • under normal atmospheric pressure - for 12 hours at temperatures up to 165 °C. In this way the β-hemihydrate is obtained.

The resulting powder is carefully sifted and the following is added to its composition:

  • catalysts and inhibitors - substances that affect strength characteristics and solidification rate;
  • dyes that give a wide variety of colors;
  • flavorings (for example, the taste of “mint” - to increase the patient’s comfort).

The essence of the process described above comes down to the fact that as a result the material acquires strength and the ability to set. The finer the powder is ground, the higher these characteristics are. Compliance with the temperature regime is of particular importance: insufficiently high temperatures leave excess water in the plaster, which prevents its hardening.

When the temperature is exceeded, all the water evaporates and anhydride forms, which sets too quickly. If absolutely all the water evaporates when heated, a material is formed that is incapable of setting. After obtaining hemihydrides, dental materials are prepared from them for various purposes.

Composition and technical characteristics

In terms of its composition, dental gypsum is calcium sulfate dihydrate (CaS04 - 2H20). This is a sedimentary rock with a layered crystal lattice, formed by precipitated sulfate salts.

Gypsum is traditionally mined in lakes and lagoons from aqueous solutions through drying. Also, deposits of natural gypsum are found in mountainous areas along with limestones, rock salt, and clays.

Temperature treatment (firing or calcination) transforms the substance into calcium sulfate hemihydrate (CaS04)2 - H20, further heating - into anhydrite.

In dental practice, a semi-aqueous modification of gypsum is used, which has a number of necessary characteristics, namely:

  • dimensional stability and accuracy;
  • excellent color contrast;
  • environmental safety;
  • lack of taste and smell;
  • insolubility under the influence of saliva;
  • low shrinkage rates;
  • affordable price.

When choosing an auxiliary material, it is necessary to pay attention to strength indicators, the degree of water absorption, the absence of metal impurities, the proportion of hydration water and volumetric expansion values.

Manufacturers supply gypsum powder in bags made of paper or cellophane impregnated with a water-repellent substance and packaged in jars equipped with ground-in lids. The packaging must contain information about the trade name of the product, information about the manufacturer and supplier, gypsum class, scope of use, color characteristics, net indicators. Also on the packaging there are recommendations about the rules and shelf life, and the batch number.

How do you get the material?

The crystals are colorless and transparent. However, all kinds of impurities, such as clay, pyrite, quartz or carbonate, color them in various shades - from pink to black. To obtain dental gypsum, the material at the first stage is cleaned of impurities and crushed to a powder state.

Next, the natural material is heated to a temperature sufficient to remove some of the water. There are several manufacturing methods. As a result of their use, medical, model plaster and super plaster are obtained. The composition of medical gypsum of all varieties is identical - (CaS04)2 - H20.

The material differs in structure and particle shape:

  1. The hemihydrate obtained by firing is medical gypsum (β-hemihydrate). The process of its manufacture is heating in an open boiler until some of the moisture evaporates. The material turns out to be porous and loose. Before use in dental practice, the powder is mixed with water in a 2:1 ratio.
  2. Model plaster (a-hemihydrate) is produced by autoclaving. When mixing non-porous powder with water, the following proportions are used - 5 parts of gypsum particles to 1-1.5 parts of water.
  3. To obtain super dental gypsum, the boiling method with the addition of chloride (magnesium or calcium) is used. Chlorides act as deflocculants, preventing the formation of flocs and promoting particle separation. When adding water, the traditional ratio is 5:1.

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How does medical plaster work?

For dental purposes, gypsum dihydrate is heated under the required pressure, mixed with water, after which the entire mixture hardens. The degree of hardening of gypsum is influenced by the following conditions: temperature, dispersion, mixing technique, quality and presence of impurities.

For conservative and post-surgical treatment of fractures and soft tissue damage, immobilization with plaster casts is widely used, which is the best means for external fixation of extremity bone fractures.

It is believed that the method of preparing and applying GP was first described by the Dutch physician A. Mathisen (1852), and in 1854, during the Crimean War, it was described and widely used by M.I. Pirogov. He also paid great attention to caring for the condition of the casted limb.

Gypsum quality control

As mentioned earlier, the quality of gypsum is directly proportional to proper firing and other factors - humidity, amount of water for mixing, etc. In connection with these parameters, there is quality control of gypsum, which consists of testing:

  1. for strength - a ball is made with a diameter of 1.5-2.5 cm. Descends from a height of 1.5 m to the floor - normally remains intact;
  2. for flowability - gypsum powder is compressed in a fist - normally there should be no lumps left in the palm, plaster seeps between the fingers;
  3. for humidity - the plaster is heated on a metal plate with a mirror held over it. If the plaster is of high quality and not damp, then the mirror will not fog up;
  4. for hardening - a paste-like mass is made (2 parts water and 3 parts gypsum), which hardens within 10-12 minutes and does not crumble when broken;
  5. for viscosity - make a plaster splint (4-5 layers), apply it to the forearm, after hardening it should retain its given shape, not crumble or delaminate;
  6. odor - if the gypsum is unsuitable when mixed with water, the smell of hydrogen sulfide (rotten eggs) appears.

Classification

According to GOST No. R51887-2002, ISO 6873, gypsum is divided into 5 classes. This classification is based on the degree of its hardness and scope of application:

  1. Impression. It has low hardness and a minimal expansion coefficient, quickly hardens, pliable and fairly soft material. Suitable for taking impressions, including those with complete edentia.
  2. Medical .
    Characterized by a normal degree of hardness. It is used for diagnostic models, as well as samples for planning the type and size of a future orthopedic product. Due to insufficient strength, gypsum of this class cannot be used to create working models.
  3. Highly durable .
    Belonging to the class of hard minerals, the material has a high strength coefficient. It is applicable for creating removable complete prosthetic systems, prostheses that replace some of the missing units, and is also used in creating a base of fixed, collapsible systems and other similar structures.
  4. Ultra-strong for dies and models with a low expansion coefficient , also in the production of disassembled jaw samples and the implementation of any combined work.
  5. Extra hard with an adjustable expansion coefficient and the addition of synthetic compounds. This is a rarely used type of plaster, needed to create models that require special precision.

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Varieties

Differences in the properties of the resulting α- and β-hemihydrates determine the difference in the purpose of dental plaster obtained from them. Since the crystal lattice of β-hemihydrates is less dense, such plasters are less durable. Dental plaster of high strength is produced based on α-hemihydrates.

Note. For comparison: the density of natural gypsum is 2.2-2.5 g/cm3, α-hemihydrate has a density of 2.72-2.73 g/cm3, β-hemihydrate - about 2.68 g/cm3.

According to the classification, there are five types of dental plaster:

  1. Type I dental plaster. It has low strength indicators, is soft, hardens quickly and is used only for technical purposes for making jaw impressions and plastering models.
  2. Dental plaster of type II of medium hardness is an auxiliary material; diagnostic models of the jaw are made from it for planning the installation of orthopedic structures. Its strength level is insufficient, so it is not suitable for making working models.
  3. III dental plaster has a high degree of strength and is hard. Diagnostic and working models of the jaw are made from it. In addition, removable dentures of the full dentition or part thereof, and elements of the base of fixed dentures can be made from third-class dental gypsum.
  4. Type IV gypsum (super dental gypsum) is a high-strength gypsum of increased hardness. Models and elements of fixed prostheses, combined works requiring a high degree of accuracy, and master models are made from it. This material is also called autoclaved.
  5. Type V dental plaster is a fairly rare and expensive synthetic material that has increased strength and hardness characteristics. Has an adjustable degree of expansion during hardening. Used for making models of increased complexity and accuracy, master models.

Terms of use

It is important for all specialists working with gypsum mass to adhere to the following rules:

  1. The material should be kept in a dry place.
  2. Before filling the storage container with a new portion, it must be thoroughly cleaned.
  3. All accessories and equipment used to work with plaster must be cleaned after each use.
  4. A single portion of material should not exceed the volume required to fill 2-3 prints.
  5. To speed up the hardening of the product, it is not recommended to add hardening accelerators to it. If necessary, it is better to take a quick-hardening brand of gypsum. By increasing the time for mixing the material by a couple of seconds, you can speed up its subsequent hardening.
  6. To prevent the expansion of the mass from exceeding the required parameters, when mixing, the proportions of water and added powder should be observed.
  7. The temperature of water and gypsum powder should be 19-20°C. A deviation of this indicator by 1°C upward or downward is allowed.
  8. The powder must be poured into the water slowly, while giving it time to completely immerse in it. Then within 1 min. Gently mix the mixture with a spatula. Following manual mixing, machine mixing should last no more than 30 seconds.
  9. The composition is poured into the mold immediately upon completion of mixing. It is unacceptable to increase the pouring time of the mixture or add water to it.
  10. The impression can be removed only after the temperature in the model has decreased.

Compliance with the listed rules will allow specialists to work with plaster comfortably, economically and quickly.

How to avoid defects in model making

From the description of the technology for making models from dental plaster, it is clear that there are subtleties that must be observed to avoid defects. Let's list the main ones.

First of all, the condition of the jaw impression being filled with wax: it must be free of saliva. Another important aspect is that the structure of the material used is porous. The use of vibrating tables minimizes the risk of cavities.

If there is no such equipment, watch your own manipulations. Be careful when separating the model from the print; if necessary, tap it with a special hammer. Use isolating solutions before pouring the dental plaster to make it easier to separate the model from the impression.

During work, always pay due attention to maintaining the required temperatures of water and material, their proportions, and consistency. Be aware of proper storage conditions, containers and tools. To achieve the highest quality and fastest results, combine, if possible, manual and machine processing.

Application Basics

In order for the manufactured orthopedic structure to be of high quality and meet all technical standards, when working with plaster, all stages of working with it must be followed exactly.

Preparation

Before you begin mixing, you must check that all equipment that will be used in this process is clean and dry.

The remains of the old material in the flask or on the spatula will provoke changes in the timing of expansion and hardening of the new gypsum mass.

It is advisable to mix any type of gypsum under vacuum conditions and with strict adherence to the proportions of all components.

Approximate measurements of ingredients will certainly lead to changes in characteristics and properties.

The mixing force and duration parameters must also match those recommended by the manufacturer.

Water used

To obtain the mixture, tap water is taken that has undergone a period of settling, the temperature of which does not exceed 20(±1)°C.

If the water has high hardness, the hardening time of the mixture is reduced . In this situation, you should take demineralized water.

Powder addition

The gypsum should be poured into the water evenly, but at the same time quickly (the approximate time for adding a portion of powder is 10 seconds). According to the new regulations, this time should be counted from the moment the powder touches the liquid.

Before you start mixing the mixture with a spatula, you must wait until the poured product is completely immersed in water (this takes about 20 seconds).

The mixing time for different classes of gypsum differs. Thus, first-class material is mixed manually for only 30 seconds. Classes 2 to 4, which are alabaster, hard and super hard, are kneaded for 1 minute.

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Unboxing

According to the standard, the frozen sample is removed from the cast after approximately 30 minutes from the point of pouring. Hydrocolloid (alginate) impressions, after being cleaned, neutralized and disinfected, are cast in plaster because they do not hold a constant volume. Having an aggressive effect on the plaster, unpacking is completed in half an hour.

Important! If other impression materials are used, it is recommended to carry out late unpacking, i.e. after an hour.

Extension

Each class of material expands slightly as it hardens. This indicator is influenced by:

  • compound;
  • air humidity;
  • ambient temperature.

To compare the degree of expansion of different classes, they must be placed in equal conditions.

The permissible expansion values ​​for each class of a given material are given in accordance with ISO 6373 or EN 26873.

Following the standards, the expansion of the product should be indicated in % and after 2 hours, and the strength of the applied impact - after 1 hour (in N/mm2).

If the sample is kept at room temperature and insufficient humidity longer, its expansion decreases by approximately 30%. But in practice it is known that gypsum even needs a slight expansion - it covers the shrinkage of other materials .

Kneading

The process carried out in a vacuum apparatus, as a rule, has a good effect on the material. Machine kneading reduces the time required to obtain a high-quality mixture by almost 2 times compared to hand kneading, i.e., if kneading by hand takes about 1 minute, then kneading by machine takes no more than 30 seconds.

First class gypsum is usually mixed by hand. Adding water to it to thin the consistency or powder to thicken it is not recommended.

Due to such actions, the structure of the material may be disrupted, which will certainly affect the process of its hardening.

Fill

The finished mass should be poured into molds almost immediately. It should not be mixed for more than 2-3 pours.

Important! The time spent on pouring is included in the total time allocated for processing the gypsum.

Upon completion of the period allotted for manipulation, crystals begin to form in the material, and subsequent work with it will be useless.

Also, once the process has begun, detailed reproduction of small elements becomes impossible, and strength is significantly reduced.

These facts must be considered when using a vibrator. Although the use of the apparatus has a positive effect on the characteristics of the finished mixture, vibration should not be continued once hardening has begun.

Modeling

When the shine disappears from the surface of the plaster, within 1 minute. You can make the desired models from it and cut them.

The duration of subsequent hardening is different for each class of gypsum. Thus, this period for hard grades (grade 3) of material is approximately 10-13 minutes. Some of the super hard varieties have a longer cure time.

Model defects

To avoid unpleasant moments, the plane between the gypsum and alginate (hydrocolloid) mass must be processed. The impression based on the alginate mixture is neutralized with water, gypsum powder or a trimmer. This treatment prevents areas that have not yet hardened from spreading over the surface of the sample.

Casts made from a hydrocolloid mixture should be placed in a potassium carbonate or potassium sulfate solution for neutralization. When using impression material with polyester, the manufacturer's instructions must be followed.

Wetting models

Samples should not be subject to harsh effects. If the technology requires steam treatment, the likelihood of their destruction can be reduced by pre-wetting.

Cleaning with a steam jet can cause rapid wear of the surface and level out contours. For this reason, it is best to clean samples with a soft-bristled brush and a special detergent.

Damage to used models during sawing or during preparation can be avoided if they are wetted briefly.

As practice shows, it is most reasonable to work with synthetic varieties of gypsum. The presence of mineral components in it leads to the fact that the expansion process lasts much longer and sometimes reaches up to 30 minutes in some varieties.

It's rare that a technician can wait all this time and start working with wax. If errors occur during modeling, they are not due to non-compliance with the technology of working with wax, but due to the fact that the expansion of the gypsum has not yet finished.

The use of gypsum in orthopedic dentistry: features and prospects

A. A. EROFEEV graduate student of the department

One of the most common auxiliary materials in dental production is gypsum. This is a natural material formed as a result of the drying of seas and lakes by precipitation from solutions rich in sulfate salts, or by weathering of rocks.

Gypsum occurs in nature in the form of a mineral - calcium sulfate dihydrate CaSO4 x 2H2O (Fig. 1).

Rice. 1. Gypsum stone.

The structure of the crystal lattice of gypsum is layered, characterized by a strictly regular arrangement of atoms in space. Two anionic groups SO42-, closely associated with Ca2+ ions, form double layers. Water molecules are located between these layers, so they are relatively easily released from the gypsum lattice when heated.

Crystals of pure gypsum are transparent, colorless, but due to the presence of various impurities they can be yellowish, pink, brown and even black in color. Gypsum is rarely found in its pure form. Constant impurities are carbonates, quartz, pyrite and clayey substances.

During industrial, high-temperature treatment, called the dehydration reaction, natural gypsum turns into hemihydrate: CaSO4 x 2H2O = CaSO4 x 0.5H2O + 1.5H2O. To obtain semi-aqueous gypsum, natural gypsum, purified from impurities, is crushed in special crushing plants and gypsum mills to a fine, homogeneous powder.

The crushed gypsum is then loaded into digesters and fired at high temperatures for several hours. Depending on the firing temperature, pressure, and time, different grades of gypsum can be obtained, differing in hardening time and strength.

Under certain heat treatment conditions, semi-aqueous gypsum can have 2 modifications: a- and b-hemihydrates.

-a-gypsum is obtained by heating gypsum dihydrate at T = 110-115 0C under a pressure of 1.3 atmospheres. This gypsum is called autoclaved super gypsum;

-b-gypsum is obtained by heating gypsum dihydrate at T = 95-105 0C and atmospheric pressure. Crystals of the b-modification form a capillary-porous structure, have a developed internal surface, and are more reactive. They require a lot of water to mix and have reduced strength.

-a-gypsum has a dense structure and a small specific surface area, its water requirement is lower and its strength is higher. Its setting time is longer. All dental plaster, according to GOST R51887-2002, ISO 6873, are divided into five classes depending on the purpose and hardness characteristics:

  1. Plaster for impressions. Low hardness gypsum, very soft and pliable. It is used to obtain full and partial impressions, including those of edentulous jaws. This material hardens quickly and has minimal expansion.
  2. Medical plaster. Alabaster gypsum of normal hardness. It is suitable for the production of diagnostic anatomical models, as well as models for planning future orthopedic designs. Class II gypsum is classified as an auxiliary material: a dried impression or model has insufficient strength indicators. Classes I and II of dental plaster are not used for making working models, but are suitable only for technical purposes.
  3. High-strength plaster for models. Hard gypsum class. It can be used for the manufacture of removable full-dentition dentures, removable dentures that replace partial absence of teeth, for the basis of collapsible fixed dentures and other similar products. Unlike the previous class, it has fairly high strength indicators.
  4. Heavy-duty plaster for models and dies with low expansion. Super-hard plaster, excellent for making dismountable master models, as well as for performing combined work.
  5. Heavy-duty plaster for models and dies with adjustable expansion rate. A very rare variety, used to make models that require particularly high precision.

For successful work of dental technicians and orthopedic dentists, it is important to remember some rules for working with dental plaster.

  1. Dental casts should be stored in a dry place. Storage containers must be cleaned before each new filling.
  2. The instruments and accessories used when working with plaster must be clean, without any remnants of previously used plaster.
  3. The portion of plaster should be no more than enough to fill two or three impressions.
  4. No agents should be added as hardening accelerators; if necessary, quick-hardening gypsum should be used. Increasing the mixing time by a few seconds is the best way to speed up the setting.
  5. It is extremely important to maintain the ratio of powder and water to obtain the desired expansion of gypsum.
  6. Water and powder should have a temperature of 20 (+1\-1) ˚С.
  7. The powder should be slowly poured into the water and allowed to sink into it. And only then start kneading with a spatula. Subsequent machine mixing should not exceed 30 seconds. When kneading by hand, this time is 1 minute.
  8. The gypsum mixture should be poured into the mold immediately after mixing. The filling time cannot be increased due to vibration and especially by adding water!
  9. The plaster model can be removed from the impression when the temperature of the model decreases.

Following these simple instructions will allow you to work comfortably, quickly, and economically.

In order to evaluate and compare the main characteristics of the most common brands of binders, a comparative analysis of plaster was carried out at the Department of Orthopedic Dentistry of the Voronezh State Medical Academy.

For a comparative analysis, dental plaster of the fourth class (Table No. 1) and third class (Table No. 2) were selected.

Table No. 1. Properties of gypsum type 4

Name
indicator
“Supergypsum-C”, type 4, Russia, “Celite”Convertin HartSpofa DentalElite RockZermack
Water consumption
20 ml / 100 g27 ml / 100 g24 ml / 100 g
Hardening time
7-11 min.13-21 min.14-16 min.
Compressive strength after one hour
47 MPa43 MPa40 MPa
Specific surface area
775360006560
Volume expansion after 2 hours
0,03 %0,045 %0,06 %

Table No. 2. Properties of gypsum type 3

Name
indicator
Elite model
Spofa Dental
"Supergips-C", type 3,
Russia, "Celite"
Giludur, synthetic
Germany, Giulini
Water consumption
35 ml / 100 g26 ml / 100 g32 ml / 100 g
Hardening time
10-15 min.7-13 min.6-11 min.
Compressive strength after one hour
21 MPa27 MPa20 MPa
Specific surface area, units
600061309752
Volume expansion after 2 hours, %
0,01 %0,1 %0,2 %

Tests were carried out in accordance with GOST R51887-2002.

LET'S CONSIDER THE OBTAINED INDICATORS

  • Water consumption. Theoretically, for the reaction of converting hemihydrate into dihydrate, 18.6% of water by weight of the binder is required. In practice, to ensure the necessary mobility of the dough, much more is consumed, i.e. the dough has its own specific water requirement. Water requirement is the minimum amount of water required to obtain a given consistency. Excess water in addition to the reaction evaporates from the resulting gypsum stone, pores form in it, which reduces the strength of the model. Therefore, you should strive to accurately measure the water to obtain the optimal consistency.
  • When gypsum binders harden, hydration of hemihydrate gypsum occurs, i.e., the reaction of addition of water to the hemihydrate, and 29 kJ of heat is released per 1 kg of hemihydrate. The hardening process does not occur immediately, but gradually. Semi-aqueous gypsum dissolves in water until a supersaturated solution is formed and the dihydrate is subsequently released from it. The massive formation of dihydrate particles leads to the fact that the plastic gypsum mixture becomes compacted and thickens. This is the beginning of its setting.
  • Compressive strength depends on many factors: the purity of gypsum raw materials, its structure, methods and modes of its processing, and modifying additives. The tensile strength is measured in megapascals: 1 MPa = 10 kgf/cm² (Fig. 2).

Rice. 2. Gypsum compression testing machine.

  • Specific surface area is the total surface area of ​​all crystals per unit volume or mass. The value of the total specific surface depends on the size, shape and microstructure of the gypsum particles. As the particle size decreases, the specific surface area increases, while their reactivity increases and quality improves.
  • Volume expansion. Plasters mixed with water are prone to complex deformations. First, in the shortest period of time, the highly fluid mass shrinks, then its volumetric expansion occurs. Shrinkage occurs before the formation of a crystalline framework. Volumetric expansion is caused by the filling and fouling of the framework by growing dihydrate crystals.

The results of a comparative analysis of binders show that the gypsum produced by Celit LLC is not inferior in its main technical characteristics, and in some cases it is superior to similar samples.

Subsequently, testing was carried out with the casts in the dental laboratory at the Department of Orthopedic Dentistry of the VSMA named after. N. N. Burdenko. It has been established that “Supergypsum-C” provides high stability on a spatula and a fluid consistency on a vibrating table, which allows you to increase the number of non-porous impressions filled with one mixing (Fig. 3).

Rice. 3. Making a master model.

Models made from “Supergypsum-C” produced by LLC “Celite” are resistant to chipping, exactly repeat the modeled surface, can be ground, polished and sawed well, the boundaries of the preparation are not damaged when processing the column (Fig. 4).

Rice. 4. The model is processed with a milling cutter and sawed with a diamond blade.

There is no breaking off of edges when removing the model from the impression, which ensures the best result. High spatial stability is achieved due to an extremely low expansion coefficient of less than a tenth of a percent (0.03%) (Fig. 5).

Rice. 5. The master model is made of plaster produced by Celite LLC.

The presented data showed that Supergips-C (Voronezh) has the best technical characteristics among the analogues under consideration.

Thus, from the presented material we can conclude that the use of plaster produced by Celit LLC by dental technicians and orthopedic dentists, taking into account the rules for making plaster models, facilitates the work of specialists and increases the functional and aesthetic properties of dentures. At the same time, the effectiveness of orthopedic treatment of patients increases, and consequently, their quality of life improves.

The studied products are appreciated and widely used by specialists in dental laboratories, teachers of educational centers in Voronezh and other cities of Russia.

The stability of the quality of the above materials, as well as other products of Celit LLC, is ensured through the activities of the production control laboratory, which employs highly professional specialists.

Over the twenty years of the enterprise’s existence, methods of heat treatment of raw materials have been constantly improved, new equipment has been introduced, and new chemical additives have been selected and introduced. Fierce competition in the market with foreign manufacturers does not allow us to rest on our laurels and stimulates the development of the latest gypsum-based binder compositions used in orthopedic dentistry.

Moving on to the second part...

Shelf life

Gypsum should always be packaged in a moisture-proof container that does not alter its physical and chemical properties. The container must be clearly marked.

It must indicate:

  • trade (factory) name of the product;
  • the name of the manufacturer and supplier, as well as their address;
  • gypsum class;
  • the intended scope of its application;
  • color (if it is not white);
  • smell;
  • net indicator;
  • indication of the expiration date of the period of application;
  • basic storage rules with the obligatory indication that gypsum is susceptible to deterioration at atmospheric pressure and high humidity;
  • Issued batch number.

Transportation and subsequent storage is possible only in the original packaging. The shelf life during which the manufacturer guarantees the quality of the released material and the preservation of characteristics subject to storage rules is 1 year.

The video provides additional information on the topic of the article.

Reviews

Plaster is a versatile dental material. The stability of its characteristics and quality, as well as its correct use, facilitate the work of specialists and increase the aesthetic and functional characteristics of prosthetic structures.

At the same time, the material improves the outcome of human treatment, and therefore affects the quality of his life.

You can share your opinion about the advisability of using gypsum in dentistry and its role in dental prosthetics by leaving it in the comments to this article.

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Tags: gypsum in dentistry, dentures

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