DE1646714C3 - Insulating body made of polystyrene foam moldings glued together, if necessary, and curable mineral substances - Google Patents

Description

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The invention relates to insulating bodies made of molded polystyrene foam pieces that may be glued to one another and hardenable minerals such as plaster of paris, cement mortar or asbestos cement.

Such insulating bodies can be produced by the method known from DT-PS 9 64 217 after the insulator made of small pieces. porous, thermoplastic Plastic bodies with self-contained pores, preferably a particle size of 0.1 to 8 mm, which have little or no water absorption capacity, and which mixed with water-based binders, then shaped and finally set this known method requires special treatment of the plastic moldings used in order to ensure that they are flawless Enveloping this with the cement-sand mixture and making the plastic body appear to prevent. So it is very difficult to carry out a supplementary generalion required on the construction site. !I. in order to achieve sufficient strength values of mixtures below 0.6 kg / m *. In addition, the low density a concrete with a very high cement content must be used not only an increase in the price of the mineral binder, but also results in high shrinkage when the concrete sets.

Further it is known. Polystyrene foam beads z. B. with the help of urea-formaldehyde resins to a porous plate material / u and glue this plate with a mixture of alkali silicates with such products that the alkali silicates when heated convert into insoluble silicates, / u impregnate and heat. You get one that way Decrease in the flammability of the polystyrene foam. however, this hardly improves the strength of the plate material. It also provides the required Always heat treatment for such insulating materials because of their poor thermal conductivity a very tedious process.

In the case of insulating materials, however, efforts are made to achieve the highest possible density with the lowest possible density To achieve strength, since the thermal conductivity of a material is generally lower, the lower its density is. In addition, for insulating materials that are to be used in construction, In addition to good strength properties, non-flammability, and if possible also fire-insulating properties, Sound absorption and sound insulation required, the material should also be impermeable to air, so that there is no risk of condensation forming under the insulating layer.

The invention is based on the object of providing an insulating body of the type mentioned at the outset improve that its plastic body without a special treatment preventing its buoyancy on the Construction site can be connected to the cement-sand mixture, with the further reduction of the Manufacturing costs of the cement content kept low and thus also a high shrinkage of the concrete during Setting is avoided.

According to the invention, the object is achieved in that the moldings have a largest diameter from about 10 to 50 mm, in particular from 15 to 25 mm have the same dimensions or a ratio of diameter to thickness in all dimensions between 10: 1 and 10: 5.

The invention achieves the technical progress that the insulating body produced in this way has good thermal insulation, high strength properties with a low specific weight, as well as good sound-absorbing and sound-insulating properties and fire resistance. In addition, there is the technically and economically interesting low density and the low cement content of the binder.

The properties of an insulating material containing polystyrene foam can namely be significantly improve if the polystyrene foam moldings produced from a polystyrene granulate by expanding not covered with rubber and glued together, but in plaster of paris or in cement binder embedded and applied as a heat and sound insulation layer or formed into panels.

The largest diameter of these spherical to lenticular shaped bodies made of polystyrene foam should be about 10 up to 50 mm. Because these molded polystyrene foam bodies are all about the same size and are themselves relatively large, few are formed when pouring between the shaped bodies, but relatively large voids that are filled by the plaster of paris or the cement mortar. The Insulation material is therefore of a few, but rather thick bridges made of plaster of paris or cement mortar which give the material its strength properties. These are at the same amount supporting material, d. H. with the same density, better if the load-bearing material is a few, thick Bridges as if it is spread over a multitude of thin bridges. The strength of the material depends on both the binder: polystyrene foam mixing ratio and the strength properties of the tie used. The strength properties of the polystyrene foam occur in the end product hardly in evidence.

Example 1

A plate produced by the method of DT-PS 12 27 649 from molded bodies bonded to one another made of foamed polystyrene, preferably in the form of flattened spheres or lenses from ctw * 10 to 50 mm in diameter and about 2 to 10 mm thick, Care is taken when gluing that the flat surfaces of the lenses as possible in the Plate plane will come to lie parallel planes in a mortar made from 10 kg of cement 325, 8 kg of dry river sand with a grain size of 0-2 mm and 6 liters of water, immersed and with the mortar on top on a full, on a vibrating table attached sheet applied. The mortar is vibrated into the plate and so much mortar is applied until the cavities of the Manupor plate are completely

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are filled out. The cured and dry board then has a density of 424 kg / m ³ .

Embodiment 2

15 kg of cement 325 are thoroughly mixed dry with 8.2 kg of fine asbestos foam for 2 minutes and then stirred to a mortar by adding 30 liters of water. 12 liters of this mortar are mixed with 12 liters of roughly lenticular molded articles made of polystyrene foam and shaped into a plate in a wooden frame. The cavities between the molded articles are completely filled with the asbestos-cement mortar. After drying, the density is 463 kg / m ^J.

Claims (1)

Claim: Insulating body made of polystyrene foam moldings and hardenable ones, possibly glued to one another Mineral substances such as plaster of paris, cement mortar or asbestos cement characterized that the briquettes have a largest diameter of about 10 to 50 mm, in particular 15 to 25 mm have, and in all dimensions the same dimensions or a ratio of diameter to the thickness between Ϊ0; 1 and 10: 5.