SU80666A1 - Method for determining the content of dihydrate, hemihydrate and anhydrite in technical semi-one gypsum - Google Patents

Description

Technical semi-aquatic gypsum, obtained by various technological processes from natural dihydrate gypsum, contains, in addition to the hemihydrate, a certain amount of dihydrate and anhydrite. The content of anhydrite and dihydrate in technical semi-aquatic gypsum affects the quality of the gypsum. So, for example, the admixture of dihydrate dramatically reduces the time taken for technical semi-aquatic gypsum to set, meaning: it increases its normal consistency and reduces the strength of gypsum castings depending on its content. In addition, the impurities of dihydrate and anhydrite also affect the expansion of plaster casts.

Known methods for determining the content of dihydrate, hemihydrate, and anhydrite do not provide reliable data and are complex.

The described method is simple and can be carried out in any factory laboratory.

Technical semi-aquatic gypsum is considered as a mechanical mixture of hemihydrate, dihydrate and anhydrite. Although in the cooking plaster all these modifications can be in each individual grain of gypsum, but the grains can also be considered as a mixture. Since each of the named modifications of gypsum are. pure form has its own specific weight; then, therefore, a mixture of all three modifications will have a specific weight greater than the specific weight of dihydrate and a smaller proportion of semi-aquatic gypsum and anhydrite.

The specific weight of pure dihydrate packs 2.32, pure semi-aquatic gypsum-2.75 and pure anhydrite is 2.96, and their molecular weights are 172, 145 and 136, respectively. Therefore, we can assume that the product of molecular weights by the healthy weight of each of the calcium sulphate modifications will be a constant value.

No. 80666- 2

From the foregoing, it is clear that to determine the D content of technical semi-aquatic gypsum dihydrate, noligidrat and anhydrite, it is necessary to establish: 1) the specific gravity of the gypsum under investigation, 2) the amount of water of crystallization in percent, 3) the specific gravity of the anhydrite obtained by calcining the gypsum under study to complete dehydrating it.

Having determined experimentally the above values and substituting them into known formulas, we find, by calculating the percentage of dihydrate, hemihydrate and anhydrite in the studied gypsum.

If you know the mode of the technological process for obtaining the studied gypsum and determine the above-mentioned modifications coir pt} cajtine in it, you can peiujiiib change the mode of the process as needed to get a gypsum with other modifications of gypsum, i.e., to get another gypsum; -quality, j. -h

Method for the reduction of the cobalt ani dihydrate, hemihydrate, and anhydrite, a., Et al., Semi-aquatic gypsum, characterized in that the specific gravity of the test gypsum is determined, the amount of crystallization water in it, the specific gravity of the anhydrite obtained by calcining the test gypsum to complete dewatering and by calculation, based on the invariance of the product of the molecular weight of each calcium sulfate modification by the value of specific weight, the content in dihydrate, hemihydrate, and anhydrite is determined.

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 D.M. of the invention