SU1342906A1 - Coating for fire-proof deck structures - Google Patents

Abstract

The invention relates to magnetic deck coatings (AML) and is intended for use in shipboard fire protection 11x designs. The aim of the invention is to increase the fire resistance of deck structures. Pel is achieved by the fact that the main layer (1st layer of AML, containing asbestos, portland cement, expanded vermiculite and hearth, additionally contains su;: 1 veil of Al2 aluminum (in the following ratio of components, wt.%: Asbestos 1.0-4.0; portland 43.0-57.0; exfoliated vermiculite 10.0-15.0; aluminum sulfate 0.5-4.5; water 30.0-35.0. 1 table s (L of

Description

The invention relates to mastic deck coatings and is intended for use in ship against fouling structures.

The purpose of the invention is to increase the fire resistance of deck structures.

Example. The composition of the coating includes, wt.%:

Asbestos 0.5

Portland cement 47.5 Expanded vermiculite15, 0 Water 33.5 Aluminum sulphate 3.6 Composition prepared by mixing all the dry components. Aluminum sulphate is then dissolved in water and the resulting solution is added to the mixture of dry ingredients and stirred until a homogeneous mass is obtained.

The coating is applied to the steel deck, which provides fire protection for the room during a fire in the downstream room. Characteristics, as a coating for such constructions with such coatings, is the time to reach the maximum permissible average excess temperature on the unheated surface, which is assumed to be equal. The thickness of the test specimens is 28 mm. The change in the time to reach the fire resistance and the limit of compressive strength depending on the composition of the coating are given in the table.

From the table it can be seen that compounds 1-10, made according to the described recipes, do not satisfy the set requirements both in terms of time to reach the fire resistance limit and in terms of strength. In that case, if less than 1% aluminum sulphate Al2 is introduced into the composition (S04), there is no improvement in fire resistance compared to OMP (composition 9). Introduction to the composition of more than 5% aluminum sulfate Alj (SO) j (composition 10) is impractical, since it is not possible to significantly exceed the average time to reach the fire resistance limit of the proposed composition while maintaining its physical and mechanical properties. In case the percentage ratio of ingredients does not correspond to the proposed composition, then, as shown in the table, such compositions do not meet the requirements of achieving the required compressive strength. Shrinkage is observed.

thirty

35

40

45

50

55

The proposed composition may be used. The compressive strength of these specimens is also somewhat higher (approximately 8%).

Claims (1)

Thus, with the same fire resistance of structures made with the coating according to the proposed formulation with OMP, the thickness of the proposed coating, as shown by experiments, can be 25% less than the thickness of the main layer of the OMP coating. Taking into account the fact that the consumption of the main layer of the coating of OMP per 100 m of the deck is 4,990 kg, reducing the thickness of the main layer by 25% reduces the consumption of material by almost 1,250 kg. Coating for fire-resistant deck structures containing asbestos, port of cement, expanded vermiculite and water, characterized in that, in order to increase the fire resistance of deck structures, it also contains aluminum sulfate Al (SO) with the following (ratio of components, wt.%: Asbestos1.0-4.0 Portland cement 43.0-57.0 Expanded vermiculite10, 0-13.0 Aluminum sulfate 0.5-4.5 Water 30.0-35.0 five 0 cracking (compounds 1 and 3), rapid hardening (compounds 2 and 4). Composition 5 does not provide insulating properties (due to an insufficient amount of vermiculite), and composition 6 does not provide sufficient mechanical strength. In the event that there is an insufficient amount of water in the composition (composition 7), the composition becomes non-technological (non-composable). And with an excess of water (composition 8), an increase in the flowability of shrinkage and low mechanical strength are observed. The results of testing samples of coatings made according to the formulation of compositions 11-21 show that all eleven samples during testing exceed the time to reach the maximum allowable prevailing of the initial temperature on the unheated surface by 20% (compared to the sample of MLE), which confirms good fire resistance of deck cones five 0 five 0 five The proposed composition can be used. The compressive strength of these specimens is also somewhat higher (approximately 8%). Thus, with the same fire resistance of structures made with the coating according to the proposed formulation with OMP, the thickness of the proposed coating, as shown by experiments, can be 25% less than the thickness of the main layer of the coating of OMP. Taking into account the fact that the consumption of the main layer of the coating of OMP per 100 m of the deck is 4,990 kg, reducing the thickness of the main layer by 25% reduces the consumption of material by almost 1,250 kg. Coating for fire-resistant deck structures containing asbestos, Portland cement, expanded vermiculite and water, characterized in that, in order to increase the fire resistance of the deck structures, it also contains aluminum sulfate Al (SO) with the following (component ratio, wt.%: Asbestos1.0-4.0 Portland cement 43.0-57.0 Expanded vermiculite10, 0-13.0 Aluminum sulfate 0.5-4.5 Water 30.0-35.0