DE2013819A1 - Porous- light-weight building material prodn - Google Patents

Abstract

Hydraulic binders, such as cement, gypsum or lime, opt. with conventional additives, are mixed with particles of water in the solid state, i.e. ice or snow, or an aqs. gel. Water reacts with the hydraulic binder leaving uniformly distributed open pores. The compressibility of the initial mixture is relatively low, whereby the moulding is facilitated.

Description

Process for the production of porous confessional building materials The invention relates focus on the production of porous lightweight building materials from hydraulically setting materials, such as cement, plaster of paris and anhydrite and especially the use of Aggregates that cause the formation of the mixture when the compressibility of the mixture is reduced Favor open pores and ensure to a sufficient extent.

Many types of porous confessional building materials are already known. you will be either by introducing gas bubbles or by adding expandable ones or expanded materials, such as pre-expanded polystyrene beads, expanded clay, vermiculite or the like in a mass containing hydraulic binders. However, the already known manufacturing processes have various disadvantages. So the introduction of gas bubbles causes difficulties in so far as the production a mixture with a defined void volume fraction and keeping it constant not always in accordance with all high requirements across all processing steps succeeds because the gas bubbles - like other additives with a very low specificity Weight, especially foam beads - tend to add up in the mix to rise above. This creates building materials with a very uneven pore distribution. - Another disadvantage of known mixtures is their compressibility in the not hardened state, which is particularly important when producing pressed moldings or when Crushing into a mold 'disturbs. - It is also hardly possible according to previously known Process to produce building materials with open pores, e.g. for good absorption from room sound or as a filter material for gases and liquids containing suspended matter are required. Furthermore, open pores also generally bring advantages where a higher gas permeability is desired.

The invention is therefore based on the object of -Lightweight building materials with produce reduced compressibility and evenly distributed open pores, their void volume up to the complete setting of moldings over the geometric Dimensions remains constant, - According to the invention, the object is achieved by that the moist mixtures containing the hydraulic binders essentially Solids consisting of water are added in the approach. - Practically brings So either snow and / or fine-grained ice or gel-like, predominantly bodies made up of water into the damp mixture. The mixing approach is to be carried out in such a way that they are present by the addition of ice and / or aqueous gel bodies Structures in the subsequently processed mixture are retained for as long as until the hydraulically setting components in the course of their reaction with water have formed a strong framework. The disintegrated when completely melted Ice or cavities that result from the subsequent evaporation of the water remain then obtained as such and a porous one is obtained after extensive drying out Body of relatively low density.

The known types of cement are initially suitable as hydraulic binders like portland, iron portland and blast furnace cement, but also those cements that contain no plaster of paris or less than usual and therefore solidify faster. Quality Building materials with the improved properties also result in burnt gypsum, screed plaster, Anhydrite, hydraulic lime, as well as mixtures of these binders with one another, especially calcined gypsum and mixtures of the same with cement and / or anhydrite technical advantages because of their rapid solidification even at temperatures around OOC bring.

From the range of variation of the mixture of the starting materials with the Additions result in different embodiments of the method according to the invention. The addition of ice or snow sets - especially when making relative small resp.

thin moldings - outside temperatures ahead that are not too far from The freezing point of the water. As a result, higher temperatures require heat insulating Formwork. With exclusive Use the common Cement types as hydraulic> binders is usually the addition of a suitable one Accelerator is necessary, as otherwise the setting reaction is very sluggish at 0 ° C. When adding accelerators in larger amounts, it should be noted that they are mostly water-soluble substances lower the freezing point of water and therefore the In some cases, add ice to melt too early. - A fast enough one Solidification of the mixture can, however, be achieved if the cement is partially for example at 25% by weight, replaced by plaster of paris. It recommends for this first type of execution of the method, the use is generally accepted of plaster of paris as a binder, especially where ice or snow is easy to procured or produced, such as in arctic. Latitudes or during the Winters in temperate climates, this type of execution brings great results Advantages, if only because of the cost-effective transport costs, as the standard surcharges that have been customary up to now also have to be obtained there. The construction of plants for the production of light aggregates on site in Arotischen Latitude is because of the generally low. Population density also unprofitable. In contrast, the process according to the invention is also far under the circumstances remote polar regions economically feasible.

Has the molded moisture containing ice or snow Mixture, due to the progressive setting of the binder, provides sufficient dimensional stability reached, the formwork can be removed. The resulting body is left either air dry or heat it to melt what is still contained Ice and an accelerated hardening and drying of the resulting porous Materials to achieve.

The heating can be done with hot air or steam, if necessary in the autoclave. It is also possible to remove the water produced when the ice thaws Partially remove suction to accelerate drying.

For another embodiment of the method one uses instead of ice or snow as a pore-forming agent, aqueous gels, in those of The water content should be sufficiently high. The water content is to be chosen so that the gel bodies are not crushed when mixed with the other ingredients of the mixture but are initially largely separate from the actual mixing water Phase are retained. - Colloidal supplements, for example, can be used as such Silica gels are considered, which are obtained by adding water glass with acids can, also swollen natural, chemically modified or synthetic High polymers. This execution of the procedure is dependent on the thermal influences, such as the temperature of the mixture during solidification, the reaction and Heat of fusion, the heat transfer coefficients, etc. compared to the design described above much more independent. It is therefore preferred for hydraulic systems that solidify less rapidly Suitable for binding agents and also when cement is used exclusively as binding agent readily applicable. - If you want to accelerate the hardening process by heating, so can the supply of heat immediately after the introduction of the moist Put the mixture in the appropriate form. On the other hand, there is an acceleration the drying of the shaped bodies by suctioning off water can hardly be carried out.

Pore size and pore size distribution according to the invention Lightweight construction materials produced by the process can be selected by selecting the appropriate The degree of comminution of the added ice or gel bodies can be varied as desired. So can be very fine pores when using snow, - with Zueatz larger pieces of ice Cavities of any size can be generated. The degree of porosity void volume P = Total volume depends on several factors, primarily the ratio the volume of the ice or gel bodies to the total volume of the mixture, furthermore from Volume fraction of the amount of ice that occurred before the mineral structure solidified in the train the hydration reaction of the binder turns into liquid water. This share is in turn dependent on the temperature, the specific heat and the weight percentage each component when preparing the mixture, also from the self adjusting the heat of hydration, the outside temperature, the effectiveness of the insulation, the thermal conductivity of the mixture itself and the surface-to-volume ratio of the mold or formwork cavity. It also follows which targeted measures affect the porosity of the finished end product. One can e.g. by pre-cooling of the binding agent, the aggregates or any added water the porosity vary to some extent. In general practice you will however, if possible avoid using pre-cooled aggregates and binders work and- the temperature of the ice used will in the majority of cases hardly deviate from 0 ° C. Under these conditions, the heat content of the is usually sufficient Binders and aggregates for the partial melting of the ice in order to ensure that the the hydration required to produce liquid water without additional amounts of water to introduce. -It is sometimes required, on the contrary, that, the crushed Ice adhering water by centrifuging or sucking off before preparing the mixture to be partially removed in order to reduce the strength due to excess water to avoid. The separation of the ice water can be omitted if you start with coarser Ice pieces are added and these are later crushed in the presence of the remaining components.

Of course, in addition to the hydraulic binders, the Ets or gel bodies, the liquid mixing water and granular or fibrous aggregates, such as rock flour, sand, gravel, grit; Asbestos, glass, miner & lewool, organic Natural or synthetic fibers or the like, or the previously customary lightweight impacts or else Cork grist, wood flour, wood shavings, etc. are used in the production of the mixtures Find. Also setting accelerators or retarders, air entrainers, concrete liquefiers, Water repellants and sealants, also plastic powder, plastic dispersions Solutions, dyes and pigments can be added. Finally there is without disadvantage for the process-also the possibility of what-seriously-soluble or -dispersible Bring additives gradually into contact with the binding agent by adding ice or gel bodies containing such additives are used. The addition can also be in microcapsules be enclosed whose walls are in neutral or are soluble in an alkaline medium. This is done when making the ice cream or ice cream. or gel bodies not from neutral reacting, but from acidic water the end. - The method according to the invention is also very generally suitable for the hydraulically setting components to insert substances whose effect is delayed To come into effect by namely adding gel particles that the active ingredient in contained dissolved, solid or encapsulated form and only gradually in the train a diffusion process to release to the environment. This can be done in special Cases, depending on the ambient temperatures, also take the place of the gel particles in ice particles prepared in this way will kick.

The dimensions of the manufactured by the method of the invention Lightweight building materials do not have to have the shapes and forms required for building purposes Dimensions correspond. Because of the selectable very high porosity of the building materials obtained can, in particular with gypsum minerals as binders, without the use of larger Easily and quickly saw up large volumes of hard aggregates made of large quantities. This property is particularly advantageous for the production of porous plates. Instead of many smaller formats, you only need one large cuboid, for example. This semi-finished technology also facilitates the thermal insulation of the hardening mass and in the sense of undiminished permeability and room sound absorption leads to components, whose surface porosity is not reduced. Some of them after sawing up. Surface pores clogged with dust can be exposed again by blowing off.

Moldings produced by the process according to the invention can be left continue to treat or refine each other. You can, for example, with water repellants, Dye solutions, synthetic resin solutions or similar impregnated with paint, plaster or other Coatings are provided or connected to other materials by gluing. It is e.g. possible to impregnate with unsaturated polyester resins or with epoxy resins Glass fiber fabric or fleece, also plywood, cardboard or plastic or Metal foils, Sheet metal and dergi. to apply to their surface- «Be4 joining on both sides plates 'with' planar structures of low specific elongation can be Produce bending and torsion-resistant lightweight panels, e.g.

such - '? de-eHonigwabenprinzips' .- - composite consummations with paper, Cardboard, solid plaster and the like. as an outer layer can be produced in a direct way by making an appropriate port in whole or in part with these laminates only then fills the mixture containing ice and / or gel bodies and let it set. - Should a closed outer layer made of hydraulically hardening Material can be generated so-the mold on its inside with a water-containing Mixture of the material can be precoated. The one containing the ice or gel bodies The moist mixture is then poured into the mold cavity that is still not in use, if the hydraulically hardening pre-coating has already solidified.

The testing of the method according to the invention according to the following examples illustrates the technical progress. The experiments were carried out at room temperature carried out; the mixing ratios are expressed in parts by weight.

Example 1 200 parts each of stucco plaster were mixed with 200, 350 and 500 Divide crushed ice from 0 ° C, largest grain approx. 10 mm, mixed, whereby the. Dem Water adhering to ice was sufficient for immediate wetting of the binding agent. Immediately after mixing, the resulting mixture was poured into foam polystyrene molds filled, the body demolded after two hours and then at 50 ° C in the drying cabinet dried. - The dry bodies have an evenly mixed pore structure, have a reduced thermal conductivity with increasing porosity and are essential more impact-resistant than solid, hardened plaster of paris. Their spatial weights are accordingly the proportions of the added lumpy ice at 0.80 or 0.53 or 0.41 kp / dm3.

Example 2 225 parts of iron portland cement, 275 and 75 parts of plaster of paris were premixed dry and then crushed with 350 or 500 or 700 parts OOC ice, largest grain approx. 10 mm, through which most of the adhering water passes previous hurling was withdrawn. The mixing continued for so long until a sufficient amount of ice was melted by the supply of heat from the environment, to completely wet the binder mixture with water. This mixture froze in expanded polystyrene molds overnight, after which the molds were removed Moldings stored in the air for one day at room temperature and then at 500C treated in the drying cabinet. - The moldings obtained in this way have bulk weights of 0.84 or 0.59 or 0.43 kp / dip3 and are stronger than those produced according to Example 1 of comparable volume weight.

Example 3 270 parts of synthetic anhydrite and 30 parts of plaster of paris were dry premixed and 350 parts crushed, by spinning off the majority of the adhering liquid water freed from the ice and also 5.4 parts of anhydrite stimulator added in the form of a 15% strength aqueous slurry. Mixing continued, until the mineral mixture was completely wetted with melt water. - The received The mass solidified in molds made of expanded polystyrene overnight and the demolded body stored in the air at room temperature until dry. -The here received porous briquettes have a density of 0.81 kp / dm3 and correspond in their Strength of the samples produced according to Example 2 with a density of 0.59 kp / dm3.

Claims (3)

Patent claims 1. Process for the production of porous lightweight building materials from hydraulic setting substances such as cement, gypsum materials or hydraulicx lime or made of Mixtures of such substances, possibly with the use of known aggregates and additives, characterized in that containing the hydraulic binders Mixtures consisting essentially of water solid bodies added in the approach will. 2. The method according to claim 1, characterized in that the Binder-containing mixtures are added crushed ice and / or snow will. 3. The method according to claim 1, characterized in that the moist Mixtures predominantly consisting of water gel bodies are added in the approach.