DE2617601A1 - Fire resistant, heat insulating plates - contg. lightweight inorganic particles and inorganic binder, reinforced with glass fibre network - Google Patents

Abstract

At least one network made of inorganic fibres (pref. glass fibres) is embedded in the plate (pref. two methods are symmetrically placed at a depth of one third of the plate thickness from each side). The aperture dia. is 3-50 mm., pref. 3-10 mm.; the fibre dia. is 0.2-2 mm., pref. 0.4-0.6 mm. The lightweight building material has high fire-resistance, and mechanical strength. The cost is relatively low.

Description

Thermal insulation material

The present invention relates to a non-combustible insulating material Fire resistance and high mechanical strength based on inorganic Light particles and inorganic binders.

Light, heat-insulating insulation materials for use in the construction sector, for example in the insulation of schools, hospitals, high-rise buildings and the like, have to meet constantly increasing requirements in the context of preventive fire protection with regard to their fire-related properties and their fire-retardant effect Sufficient There are several methods of subdividing insulation materials into the class A 1 or F 9S (each according to DIN 4102) can be classified as known as a base material mostly inorganic light particles, such as perlite, vermiculite, are used Binders are held together. However, with the (because of the possible low thermal conductivity) aimed at low densities of max 200 kg / m3 additional reinforcement required - not least with regard to the desired, fire-retardant Effect and the associated requirements for mechanical strength The Reinforcement can be achieved by incorporating additives such as organic and inorganic fibers, shredded paper, etc., can be achieved.

However, these processes have a number of serious disadvantages on So is the dry and at the same time homogeneous mixing of fibers with one very light material, such as

Perlite because of the inevitable formation of agglomerations ("fiber nests") practically impossible. All previously known methods therefore work with pulps or with slurries of the fibers in plenty of water. (See also the DT-OS 1 239 608, 1 958 371, 2 123 509, 2 311 918, 32 329 161, 2 336 400 this in addition to the use of complicated and expensive equipment (fiber fleece machines, Foudrinier molding machines etc) and high drying costs, special environmental protection measures when removing the previously added and now with wetting agents and fiber residues contaminated water. In addition, the reinforcing effect is inorganic Fibers - this is especially true for glass fibers - in combination with the otherwise good suitable, inorganic binders cement, waterglass, slaked lime etc are known only slightly This is how the compressive strength of perlite cement or perlite water glass plates decreases by the incorporation of glass fibers even down, while the flexural strength only little increases This is partly due to the fact that glass fibers are "sized", doho with special plastics are coated, which bond with the inorganic Preventing binders If "unsized" glass fibers are used, the rate increases Flexural tensile strength initially increases, but drops again significantly after a few weeks, as the fibers are gradually destroyed by the strongly alkaline binders On the other hand, the disordered distribution - as a result of the mixing process - has an effect of the fibers within the insulation board are negative> because only a certain part The present one is used to reinforce the direction of the main load The invention was based on the object of providing thermal insulation materials, in particular in the form of panels containing inorganic light-weight particles and inorganic binders, which do not have the above-mentioned disadvantages, i.e. which can be manufactured without high costs and which, in addition to good fire behavior, also have good mechanical properties Possess strength.

It has been found that this object can be achieved in that the thermal insulation materials contain at least one network of inorganic fibers embedded According to the invention, the thermal insulation materials are nets instead of fibrous materials Incorporated from inorganic fibers The nets can be made from rockwool fibers but preferably made of glass fibers exist, depending on the dimensions of the molded body to be produced, the nets can have a mesh size of 3 to 50 mm, preferably from 3 to 10 mm. The fiber strength can be 0.2 to 2, preferably 0.4 to 0.6 mm. Suitable are nets with a basis weight of 15 to 150, preferably from 30 to 40 g / m2. One advantage of the networks is that justifies that they, without the adverse consequences occurring as with fibers, with plastics known per se can be encased as a result of compression of the molded body When pressing, the material is intensely intermeshed through the meshes and a direct bond between the fiber material and the binder is not required0 This has the further advantage that the material of the nets by the strongly alkaline hydraulic binders are not attacked0 Another advantage of incorporation of glass nets lies in the fact that the density of the products is hardly influenced0 While when using fibers, the proportion is known to be ten and more percent by weight must be in order to achieve a measurable increase in tensile strength, it lies when using glass nets, depending on the dry weight of the insulation board, far below 1 percent by weight. This is important not least because fibers are relative are expensive materials and also the compressive strength from 10% fiber content is often negatively influenced0 although the percentage of reinforcement material with the incorporation of glass nets according to the invention is incomparably lower, increases the tensile strength compared with fiber-reinforced samples by more than 100 percent at.

Another major advantage of the thermal insulation materials according to the invention consists in the fact that you use considerably smaller amounts of water in their production can get by and the starting materials are no longer in the form of pulpy mixtures must process, from which after shaping the water again in a costly manner must be removed, you can accordingly in the preparation of the invention Thermal insulation materials made from mixtures of inorganic light-weight particles and inorganic Run out of binders to which only enough water is added to create a crumbly moist Dimensions received, This mass is applied to a tape or in a form is introduced and the mesh (s) embedded in the desired location0 When making panels it is useful not to have a mesh in the middle of the Plate to be arranged, but a net each in the upper and lower third, covered to the thickness of the plate. This is done in such a way that one clicks on a Pour the damp mixture in the desired thickness and lay the first net, then applies more mixture, covers it with the second mesh and then the Applies remaining mixture 0 Then it is pressed and dried As known, one can use naturally occurring materials as inorganic light-weight particles, such as preferably perlite, vermiculite, or synthetic materials such as fly ash, Use silicate foams and the like. The particles should have a bulk density of 30 to 140 g / l, preferably from 40 to 70 g / l, and an average particle diameter from 0.01 to 4 mm, preferably from 0.1 to 1 mm, auzNeisenO can be used as a binder Cement, water glass, slaked lime, gypsum> monoaluminium phosphate, monocalcium phosphate, secondary magnesium phosphate, ammonium polyphosphate as well as borates and basic aluminum salts of the general formula Al2 (OH) x Y6-x, in which Y Br-, N8. SO - and especially Cl - and x means a number from 1.0 to 5.0 can be used.

Light particles and binders become advantageous in weight ratio from 1: 1 to Lt: 1 used0 The mixture is 4 to 8 times the amount of water, based on the weight of the light particles, to a moist crumbly one Mass implemented and further processed as described above0 The in the examples parts mentioned are parts by weight.

Example 1 A mixture of 75 parts perlite with one grain size from 0.1 to 1 mm and a bulk density of 50 g / l and 25 parts of Portland cement are sprayed in a free-fall mixer with 400 parts of water * The moist, but still free-flowing mixture is The plate has next to one even higher mechanical strength the same favorable properties as below Example 1.

Example 3 As described in Example 1, a mixture of 80 Parts of perlite, 20 parts of sodium silicate mixed with 400 parts of water and removed A thermal insulation board is made of this mixture, in which two glass mesh fabrics, as described in Example 1, are inserted.

The panels are dried at room temperature (10 days drying time) or at 500C (3 days) 0 The following properties refer to an insulation board the density 200 g / l: thermal conductivity X 0.049 kcal / moC h according to DIN 52 612 compressive strength 4.1 kp / cm2 according to DIN 1164 Bending tensile strength 3.7 kp / cm2 according to DIN 1164 The plate shows similar favorable properties as under Example 1 or Example 4 How Described in Example 1, 50 parts of perlite and 50 parts of calcium phosphate are used Ca (H2P04) 2 o H20 and 200 parts of water made a plate0 for reinforcement are two glass mesh fabrics with a mesh size of 0.5 x 0.5 cm and a fiber thickness of 0.4 mm inserted.

The drying takes place in the course of two hours at approx. 2000C.

The following properties relate to the above density insulation board 190 g / l: then placed in a mold and each in the lower one and upper third a glass mesh fabric with a mesh size of 0.5 x 0.7 cm, a fiber thickness of approx. 0.4 mm and a weight per unit area of approx. 30 g / m2 The mass is then pressed and dried. Drying to constant weight takes place either by steam curing within 12 hours or within three Days at 50 ° C or 10 to 12 days at room temperature.

The following properties relate to the above density insulation board 160 g / l: thermal coefficient> 0.044 kcal / mh ° C according to DIN 52 612 compressive strength 2.8 kp / cm2 according to DIN 1164 Flexural tensile strength 3.9 kp / cm2 according to DIN 1164 The plate is insoluble in water, completely inorganic (building material class A 1) and due to their high fire resistance duration in the fire resistance class F 90, in each case according to DIN 4102, to be classified. Example 2 A plate is described as in Example 1 made, but from 70 parts perlite, 30 parts portland cement and two glass nets with a mesh size of 0.5 x 0.5 cm, a fiber thickness of 0.4 mm and a weight per unit area of 42 g / m2.

The following properties refer to a plate of density 200 g / l: thermal conductivity> 0.050 kcal / ° C hm according to DIN 52 612 compressive strength 3.2 kp / cm2 according to DIN 1164 bending tensile strength 4.7 kp / cm2 according to DIN 1164 Thermal conductivity A 0.048 kcal / mh ° C according to DIN 52 612 Compressive strength 2.0 kp / cm2 according to DIN 1164 bending tensile strength 3.8 kp / cm2 according to DIN 1164 Example 5 A mixture of 60 parts perlite, 40 parts of a basic aluminum chloride of the formula Al2 (OH) 5Cl [2-3H20] and 250 parts of water are prepared as described in Example 1 and after introduction pressed into a plate by two glass nets.

Drying takes place at 150-175 ° C for about three hours0 The following information relates to the above insulation board with a density of 200 g / l: thermal conductivity # 0.050 kcal / hm ° C according to DIN 52 612 compressive strength 3.0 kp / cm2 according to DIN 1164 flexural strength 4.1 kp / cm2 according to DIN 1164 in the table below is intended to demonstrate the reinforcing effect of the glass nets used in five examples will. Amount ratio Final density used Additional flexural strength Compressive pearlite / binding agent of the board Reinforcement (kp / cm²) (kp / cm²) average (weight average according to DIN 1164 according to DIN 1164 (g / cm³) parts) none 1.6 2.2 75: 25 Portland 0.16 25% glass fiber cement 350 F fiber length 6 mm 1.7 1.8 2 glass nets as in example 1 3.9 2.8 none 2.3 3.1 70:30 Portland-0.20 25% glass fiber cement 350 F fiber length 6 mm 2.3 2.8 2 glass nets as in the example 2 4.7 3.2 none 1.9 4.2 80: 20 sodium silicate 0.20 25% glass fibers Na2SiO3 fiber length 6 mm 1.7 3.8 2 glass meshes as in example 1 3.7 4.1 none 2.0 2.1 50:50 calcium phosphate 0.19 25% glass fibers Ca (H2PO4) 2.H2O fiber length 6 mm 1.9 1.5 2 glass nets as below Example 2 3.8 2.0 Amount ratio Final density used Additional Flexural strength - compression strength - pearlite / binding - binding agent of the panel reinforcement (kp / cm²) speed (kp / cm²) mean (weight (g / cm³) mean according to DIN 1164 according to DIN 1164 parts) none 1.9 2.8 60: 40 bas. Aluminum 0.20 25% glass fiber nium chloride fiber length 6 mm 2.0 2.6 Al2 (OH) 5Cl. 2 glass nets as in example 2 4.1 3.0 2-3 H2O

Claims (7)

Claims 1. Thermal insulation material, in particular in the form of panels, containing inorganic light-weight particles and inorganic binders, thereby characterized in that it embedded at least one network of inorganic fibers contain. 2. Thermal insulation material according to claim 1, characterized in that the Network made of fiberglass 3. Thermal insulation material according to claims 1 and 2, characterized in that that the network has a mesh size of 3 to 50 mm, preferably 3 to 10 mmX. 4. Thermal insulation material according to Claims 1 to 3, characterized in that that the fibers have a diameter of 0> 2 to 2 mm, preferably from 0.4 to 0.6 mm. 5 thermal insulation material in the form of panels according to claims 1 to 4, thereby characterized that each a network of inorganic fibers in the upper and lower third, based on the plate thickness,, is arranged 6. Process for the production of Thermal insulation materials according to Claims 1 to 5, characterized in that 3 one Mixture of inorganic light particles and binding agents with so much water added that that a crumbly moist mass arises, the mixture on a tape or iri one Introduces form and introduces the inorganic fiber mat into the mixture, then pressed and dries 7. The method according to claim 6, characterized in that add 4 to 8 times the amount of water to the mixture, based on the inorganic light particles13 clogs.