DE1669164A1 - Use of drained gypsum as a drying and stabilizing agent - Google Patents

Description

Use of drained gypsum as a drying and stabilizing agent The invention relates to the use of dehydrated gypsum as a drying and stabilizing agent. for reactive multi-component systems, which moisture-sensitive raw materials contain.

Paints, coatings and grouting compounds are in bulk Number in the form of multi-component systems in retail. Be at the place of application brought the individual components to react with one another and react there too Products of the desired properties within a certain time. The timespan, The pot life within which the products can be processed is called the pot life.

Such multi-component systems are often sensitive to moisture. The moisture content has a special effect there disadvantageous from, where the water actively participates in the reaction process. So it is known to dap polyhydroxyl compounds react with cyisocyanates to form polyurethanes. Contains such a reaction mixture Water, becomes by reaction. carbon dioxide is released with the isocyanate. Through this Small ones arise in the paints or coating or joint sealing compounds Blisters that can cause puffiness on thicker coatings, if that carbon dioxide formed can no longer escape.

The moisture can already be in the starting components of the reactive Multi-component systems may be included. A certain water content is often due to the manufacturing process and unavoidable.

However, water can also be stored in the raw materials for a longer period of time Air or be absorbed during further processing.

This is particularly to be feared if the raw materials like such as alcohols, certain esters or amines, are hydrophilic.

From German patent specification 1,143,634 it is known to use an activated alkali aluminosilicate with a zeolite structure as a drying agent for polyurethane compositions containing isocyanate groups. However, this drying agent has the disadvantage that it releases alkaline reaction products which in turn accelerate the course of the reaction considerably. The @@ - ac-ion acceleration igunß is also strongly of dor L. T:; c2a, t 'de. ^ pre-dried with alkali aluminosilicate Polyhydroxylk <. poneit ~ addicted. This means that the initially set time of a two-component system can be reduced by half after a long period of storage, so that perfect processing is no longer possible.

It is also known that mercapto-containing polysulfides with suitable oxidizing agents, such as heavy metal oxide-s to those for example Lead dioxide and manganese dioxide are combined into rubber-like products pass over, diw can be used as joint and coating compounds. Contains one of the two components has a certain moisture content, which is below 1% can lie, an acceleration occurs during the reaction, which increases with the processing of the product by reducing the pot life.

Surprisingly, it has now been found that a temperature at the same temperature dewatered gypsum moisture-sensitive reactive adhesive component systems or whose raw materials are dehydrated quickly and effectively, so dap always with @ the same The speed of the uniform course of the reaction is to be observed.

The invention is therefore characterized by the use of at temperatures of 180-220 ° C, preferably 190-200 ° C, dehydrated gypsum as dry and Stabilizing agent for reactive multicomponent systems, insb @@@@ de @@ paints, Coating or joint sealing compounds, which @ moisture-sensitive raw materials contain.

A major advantage of the plaster of paris to be used according to the invention can be seen in it, dap in the removal and binding of the in the multi-component systems contained water k. an alkaline reaction products arise, which the Would interfere with the reaction process.

It was surprising that at temperatures of lüJ-. '. dehydrated Plaster of paris is used for the purpose according to the invention, as in contrast to this when it is used the normal stucco plaster commonly used in the trade no comparable drying effect ore will. The product marketed under the name stucco plaster is heated in the earelfall to temperatures of 130-180 ° C. This stucco is made of from a mixture of violet CaSO4. 1/2 H2O and a little CaSO4.

The addition of the gypsum to be used according to the invention to the to The drying component depends on its moisture content. It is to take into account that the dewatering of gypsum b, ei temperatures of 180-220 ° C The resulting product binds up to approx. 6% of its own weight to moisture can.

The desiccant can be one or more components of the component system, if appropriate, optionally together, fillers and auxiliaries, such as pigments, are added will.

EXAMPLE 1 To 600 g of a linear polyester containing hydroxyl groups (1.2% hydroxyl content) and 60 g of a linear polyester containing hydroxyl (8.5% hydroxyl content), 100 g of a gypsum dehydrated at temperatures of 180-200 ° C., 30 g of microtalk, 60 Stir in g titanium dioxide and 150 g barite. The ge @ isch is then ground down using a three-roller. For hardening, 100 g of diphenylmethane-4,4'-diisocyanate of the liquid prepared above are stirred in. A bubble-free joint sealing compound is obtained. The processing time was still constant after both components had been stored for 1/2 years. If sodium aluminosilicate is used instead of the above-mentioned gypsum in the same recipe, the pot life will be significantly reduced after storage. This results from the following table: Dependency of the pot life on the storage time when using different drying substances Pot life when using Storage time at 180-200 ° 0 sodium (Weeks) dried gypsum aluminosilicate (h) (h) 0 @ 4.0 l. 4, 02, 0 2 4.0 1.7 3 4.0 1.5 28 4.0 1.4 The drying effect of the plaster of paris to be used according to the invention was determined according to the above recipe as follows: The plaster of paris dried at temperatures of 180-200 ° C. was replaced by barite. The reaction mixture of polyol component and isocyanate was poured into a test tube (approximately 1/4 of the liquid level) and precisely marked. After about 5 hours the mixture had increased 90%. If the barite was replaced again by the plaster of paris pretreated as mentioned, a steep slope occurred.

Example 2 210 g of a polyether alcohol (3.5% hydroxyl content) were intimately mixed with 300 g of special tar, 80 g of toluene, 140 g of talc and 100 g of the gypsum to be used according to the invention using a high-speed mixer. For curing, 200 g of a polyfunctional., Aromatic isocyanate (13% isocyanate content) were added. kurde was used instead of 100 g of plaster of paris talc, the following results were obtained: Additive drying agent pot life ste @ @@ he IOC f gypsum dried at 180-200 ° C 60 min. 0% - without addition - 35 min.

Example 3 100 g of a liquid polysulfide with reactive SH groups were with 15 g of precipitated calcium carbonate, 15 g of dry gypsum according to the invention, 10 g of titanium dioxide, 0.1 g of sulfur, 5 g of phenolic resin are intimately mixed and over the three-roller ground down.

The hardening paste had the following composition: 7.5 g lead dioxide, 6 g dibutyl phthalate, 3 g of the above-mentioned gypsum and 0.2% lead stearate. This paste was also ground down using the three-roller. If the recipe was produced once with and the other time without plaster of paris dried at 180-200 ° C, there was a clear dependence of the pot life on the storage time. Storage time pot life (Weeks). with without Plaster of paris dried at 180-200 ° C 0 2, 1 1, 4 1 2, 1'1, 1 2 2, 0 1, 1 15 2, 1 0.8

Claims (1)

Claim use of at temperatures of 180-220 ° C, preferably 190-200 ° C dehydrated gypsum as a drying and stabilizing agent for reactive multi-component systems, in particular paints, coating or joint sealing compounds, which are moisture-sensitive raw materials contain.