DE852366C - Production of moldings from a mortar mass - Google Patents

Description

Production of moldings from a mortar mass The invention relates to the production of moldings from a mortar mass, consisting of a hydraulic Binders, a fibrous organic material and aggregates.

It is known to make wood concrete from a hydraulic binder, such as Cement or plaster of paris, with the addition of sawdust or the like. And additives, such as Sand, clay, pumice, tuff, lava stones, asbestos or the like. To produce. One has the sawdust by drinking with water glass, solutions of organic salts, such as Sodium chloride, ferric chloride, silicofluoric acid salts, tartaric acid and the like. Like., mineralized to ensure a sufficient connection of the organic matter with the Producing cement, which is crucial for the strength of the bricks Meaning is. However, the treatment with soluble salts has the disadvantage that the products are not very weatherproof because the salts are leached out by rain and the like will. The mechanical strength was also only low.

Mixtures of cement, sawdust and diatomite have also been made, the relatively little cement, d - besides but calcium oxide and a lot of diatomaceous earth and contained sawdust. The kieselguhr was used exclusively as a filler.

It has now been found that valuable mortar masses and moldings made of cement, a fibrous or granular organic material and aggregates can be obtained if the binder, preferably Portland cement, diatomite, finely ground aluminosilicate-containing materials, finely ground quartz sand and the organic material is thoroughly mixed dry, then add water until an earth-moist, crumbly to plastic consistency is achieved, the whole thing is intimately mixed and the mass is deformed. According to a particular embodiment of the invention, about 1 part by volume of cement, 0.5 to 1 part by volume of kieselguhr-aluminosilicate mixture and 1 to 3 parts by volume of sawdust or the like are mixed , expediently used in a ratio of about 6 to 2.5 parts of space. Instead of light diatomaceous earth, other silicates of natural or artificial origin with a weight of less than 0.5 and a particle size of less than 0.1 mm can also be used, such as silicon material, moler earth or the like as a silicification mass, a mixture of kieselguhr with comminuted, aluminosilicates containing substances, e.g. B. volcanic rocks such as trass, lava od. Like., And use finely ground quartz sand, for example in a ratio of about 6 parts by volume of light diatomaceous earth, about 2.5 parts by volume of heavy diatomaceous earth, about i part "ate with about 0.5 parts of quartz sand powder. The organic material used can be sawdust or milled shavings from softwood that contain no more than 10% wood flour with a particle size of less than 0.2 mm. It is advisable to use approximately equal tassel and about 0.5 parts by volume of quartz sand powder that the amount of water in the mixture including the water content of the sawdust is 0.5 to i, o 1 water per kilogram of cement.

The briquettes can also with the supply of steam at increased Temperature and preferably cured at elevated pressure in a manner known per se will. The moldings can also be applied in a manner known per se prior to setting mechanical way, e.g. B. on vibrating or vibrating tables, compacted. In the moldings can reinforcing agents such. B. steel inserts, similar to the production of reinforced concrete or the like., Are embedded. Even You can add swelling cement to the mortar mass or other additives that cause swelling are mixed in, so that the reinforcement layers during the setting as a result receive a slight bias of the swelling.

The invention also relates to moldings, components and structural elements from a mortar mass, consisting of Portland cement, sawdust and / or milling chips and a mixture of kieselguhr and crushed silicates, preferably volcanic Rock or sand. Furthermore, the invention relates to everyday objects of all Art, z.13. Furniture whose building material is made by hardening a mixture of Portland cement, an organic substance, such as sawdust or milling chips, kieselguhr and fillers is won.

Under light diatomaceous earth is a preferably burnt kieselguhr to understand, which is ground to cement fineness, i.e. a sieve of 4900 mesh / cm2 happens, and has a density of about 0.15 to 0.2o. Heavy diatomite is coarse-grained (up to 1 mm grain size) and has a density of around 0.5. The finest ground Diatomaceous earth surprisingly has the property of mineralizing the wood particles, so that treatment with water glass or other aqueous solutions is unnecessary. The heavy and granular diatomaceous earth provides the link between the mineralized organic substance and the cement with which they are in a known manner Hardening of crystal formation.

Instead of Portland cement, you can use other binders, such as Lime, or alumina, blast furnace romance cement or the like. Use.

All common silicates such as sand, clay, stone chippings are suitable as aggregates, but above all substances with a content of aluminosilicates which have reactive silicic acid, i.e. a latent setting capacity, such as granular blast furnace slag, lava, tass, pumice, chippings from fired bricks such as rubble chippings etc. Example ii room part Portland cement (quality class 325) 0.48 room parts light kieselguhr, d = 0.16, 0.2o room parts heavy kieselguhr, d = o, 5i, o, o8 room parts trass, powdery, 0, 04 Parts of quartz sand with cement fineness, i, oo parts of pine sawdust, i, oo parts of spruce chips, o, 5o parts of boiler slag with a grain size of 4 to 8 mm are mixed very thoroughly dry in a compulsory mixer . and the quartz sand flour, it is advisable to prepare a premix and mix this with the other ingredients. Mixing water is then added to the mixture st is smaller, the higher the degree of solidification of the mass. So it is smaller with mechanical compression than with manual production. First of all, the moisture content of the sawdust and shavings must be determined and the amount of mixing water measured so that the total amount of water in the mixture, including the water content of the wood shavings, is 0.5 to 1.0 per kilogram of cement and the mass has an earth-moist, crumbly to plastic consistency . For example, if the water content of the wood chips is 50%, then 0.75 liters of water must be added per kilogram of cement. The best strengths are achieved here, but the invention is not limited to this amount of water. Depending on the prevailing conditions, it can also be larger or smaller, in particular in the case of mechanical solidification of the mass, for example on vibrating or vibrating tables, in the event of solidification by pressing, hammering or ramming or the like.

After the addition of water, an intimate mixture is produced and the wet mixture is now further processed, e.g. 13. used as a mortar in Extrusion pressed or placed in molds and then left to set.

After about 12 hours, the moldings have acquired such strength that they can be removed from the molds and transported. They are to be stored appropriately and left to harden for about 28 days. The strengths after 28 days of storage are: compressive strength. . Zoo up to i 50 kg / cm2 flexural strength. 40 to 53 kg / cm2 tensile strength. . . . . . 24 kg / cm2 shrinkage. . . . . . o, 5 0/0 the other physical constants are: adhesive strength. . . . 32.5 kg / cm2 specific weight. . . . i, 15 water absorbency 36.6 percent by weight absorbency. . about 1 / 10o of the brick's thermal conductivity. . . . 0.31 Thermal resistance 0.032 Sinodule of elasticity. E = 42,000 kg / cm2 ratio of the modulus of elasticity of steel to the new wood cement. . 11 = 50 Example e 1 part by volume of bauxite cement, 0.5o part of Si material, o, 10 parts of lava powder, 0.2o part of brick flour,. 0.05 parts of Ouarz sand flour, 2.000 parts of poplar sawdust, 1.5o parts of granulated blast furnace slag, 0.5o parts of quicklime are made into a mortar mass as in Example 1, the wet mixture is shaped into stones in presses and the briquettes are steam hardened in the hardening kettle Subject to 12 atm for 8 hours.

The stones have a compressive strength of 130 kg / cm2.

You can also use steel reinforcement in the bricks according to the principles of the reinforced concrete structure. If you use duel cement as a binder, z. B. 5% of a sulphate-containing cement that drifts or swells when it sets there is a certain amount of pretensioning in the steel inserts. Instead of steel inserts you can also use other reinforcement, e.g. B. wooden sticks, wires, fiberglass, yarn or fabric.

The invention is not limited to the above two examples limited. The mixing ratio and the nature of the ingredients can vary depending on can be largely changed for the given purpose.

The products according to the present invention result in a lightweight construction material, which advantageously combines the properties of wood and concrete and has high strength having. The briquettes can be worked like wood, i. H. sawing, nailing, screwing, drill, glue, polish, treat with paints, varnishes or other paints. The screws and nails are just as tight in the new building material as they are in the wood. Above In addition to these properties, the new building material is in contrast to the naturally grown one Wood homogeneous, non-flammable, i.e. fire-retardant, vermin-proof, sponge-proof, safe against rot, i.e. insecticidal and bactericidal, and with mechanical solidification and steam curing volume-stable. The property of the is also of particular value. new building material that it is practical from sulphurous smoke gases and weak acids is not attacked and that it is weatherproof, so that it is beneficial too Constructions can be used in building construction. For reinforcement with steel inserts the building material according to the present invention can also be used as a load-bearing component will. But it is not a substitute for wood for me, so that it is suitable overcome the shortage of wood. At the same time, it is a valuable exchange material for reinforced concrete with the pleasant property of being only about half as heavy as reinforced concrete to be. The new building material is so capable of general application that it can be used as a whole Houses or factory-made prefabricated parts can be mass-produced, such as exterior and interior walls, floor ceilings, roof trusses, dormers, roof tiles, roof structures, Floors, storey stairs, window frames, doors, cellar and light shafts, furniture and furniture parts as well as everyday objects of all kinds. Is of particular importance the simple production method that does not require any special treatment of the wood for silicification requires. Wood from all softwoods, such as spruce, fir, pine and poplar, can be used. be used. The wood can be damp and easily fresh cut chips can be used. You just have to avoid using it for too long Refrain from stored or rotten wood, as the setting and hardening process this can be severely impaired and only low strengths can be achieved. It is therefore important that you use sawdust or shavings of good quality as the quality of the product depends to a large extent on it.

Claims (1)

PATENT CLAIMS: i. Process for the production of moldings from a mortar mass, consisting of a binder, a fibrous or granular organic material and aggregates, characterized in that the binder, preferably Portland cement, is mixed with a mixture of Kieselger, finely ground aluminosilicates, finely ground quartz sand and the organic Mix the fabric dry, then add water until it has a crumbly to plastic consistency, the whole thing is intimately mixed and the mass is deformed. Process according to claim 1, characterized in that about 1 part by volume of cement, 0.5 to 1 part by volume of diatomite-aluminosilicate mixture and 1 to 3 parts by volume of sawdust or the like are mixed. 3. The method according to claim i or 2, characterized in that a mixture of heavy and light diatomaceous earth, preferably in a ratio of about 6 to 2.5 parts by volume, with aluminosilicates and quartz sand powder is used as the silicification agent. . 4. The method according to claim 1 to 3, characterized in that instead of light kieselguhr other silicates of natural or artificial origin with a weight of less than 0.5 and a particle size of less than 0.1 mm are used, such as Si material , Moler earth or the like. 5. The method according to claim 3 or 4, characterized in that a mixture of kieselguhr with comminuted, aluminosilicates containing substances such. B. volcanic rocks such as Traß, lava od. Like., And finely ground quartz sand used, for example in a ratio of about 6 parts by volume of light diatomite, about 2.5 parts of heavy diatomaceous earth, about 1 part by volume of Trass and about 0.5 parts by volume of quartz sand powder. 6. The method according to claim i to 5, characterized in that sawdust or milling chips from softwoods is used as the organic material; which contain no more than 10% wood flour with a particle size of less than 0.2 mm. 7. The method according to claim 6, characterized in that approximately equal parts sawdust and milling chips are used. B. The method according to claim i to 7, characterized in that the mixing water addition is dimensioned so that the total amount of water of the mixture including the water content of the sawdust is 0.5 to 1.0 water per kilogram of cement. G. Process according to Claims 1 to 8, characterized in that the moldings are cured in a manner known per se with the addition of steam at an elevated temperature and preferably at an elevated pressure. ok A method according to claims i to g, characterized in that the briquettes in a manner known per se by mechanical means, for. B. on vibrating or vibrating tables, compacted. ii. A method according to claims i to io, characterized in that reinforcing agents, e.g. B. steel inserts, similar to od in the production of reinforced concrete, the like., Are embedded. 12. The method according to claim ii, characterized in that swelling cement or other additives causing swelling are added to the mortar mass in a manner known per se Milling chips and a mixture of kieselguhr and crushed silicates, preferably from volcanic rock or sand. 14. Utensils of all kinds, e.g. B. Furniture whose building material is obtained by hardening a mixture of Portland cement, an organic material such as sawdust or milling chips, kieselguhr and fillers.