DE1905340A1 - Moulded bodies, wholly or partly of water - glass foam - Google Patents

Abstract

Waterglass and 45-80% of a dry substance are placed in moulds at a temp. of approx. 480-500 degrees C, foaming being continued for 7-50 min., depending on the wall strength and the size of the mould. Moulded bodies are pref. made from water glass with a solid content is approx. 48.5%, concn. 48-50 degrees Be, sp. wt. 1.49-1.53 contng. approx. 13.5% Na2O, 35.0% SiO2, 51.5% H2O, and a wt. ratio Na2O:SiO2 is approx. 2.68; partic. suited to forming sandwich slabs with other insulating and non-insulating substances.

Description

Process for the production of moldings wholly or partially consist of water glass foam The invention relates to a method of production of molded bodies which are wholly or partially made of water glass foam.

It is known that shaped bodies of this type can be produced in that liquid Water glass with a degree of 28 ~ 420 Be and a dry matter of 30 - 40% is foamed at temperatures of 500 - 600 ° C.

The high proportion of water creates vapors in the water glass expand large-pored and very irregularly, while at the same time the water glass largely irreversibly solidified as a result of the action of heat.

This manufacturing process is only sufficient for very low technical requirements.

A uniform porosity and smaller cells of the waterglass foam To achieve, you have to therefore have the water glass by evaporating the water content a higher degree of gravity and thus also thickened on a dry matter the somewhat is over 40.7%.

The thickened water glass can already be used at temperatures of approx. 500 ° C can be foamed.

It is possible to add substances to the water glass that, like zOBo porous polystyrene, burn during foaming, so that the corresponding Pores are partially filled with the combustion residue in this way Manufactured moldings could not prevail because of the thickening process It was very cumbersome and time-consuming, and there were also difficulties with the mixing machines to be cleaned from the very viscous mass0 According to the invention, this disadvantage be eliminated by keeping water glass with a dry matter in the areas of about 45-86%, preferably 56.4-83.7%, in molds at temperatures from approx. 480 - 500 ° C, depending on the wall thickness and size of the shaped body, in approx. 7 - 50 min is foamed.

Such a water glass is commercially available for special purposes, es This eliminates the cumbersome and expensive thickening, you can already liquid Soda water glass with a dry substance of approx. 48.5%, a degree of 48 - 50 ° Be, a specific GewO of 1.49 - 1.53, a content of Na2O approx. 13.5%, SiO2 = approx 35.0%, H2O = approx 51.5%, a weight ratio Na2O: SiO2 = approx 1: 2.6, a Use molar ratio Na2O: siO2 = approx 2.68.

This water glass results in relatively large pores, but very light ones and closed moldings. The water glass can still be relatively simple pour into molds.

However, the soda waterglass with a dry substance is very viscous of approx. 56.4%, a degree of 58 -60 ° Be, a spec. Weight from 1.67 - 1.71, a content of Na2O = 18.2%, SiO2 = approx 38.2%, H2O = approx 43.0%, a weight ratio of Na2O: SiO2 = 1: 2.1, a molar ratio Na2O: SiO2 = approx 2.17.

Soda water glass of this degree is very porous lather up and is particularly suitable for manufacturing and insulating panels, acoustic bodies, door panels, and dummies and packaging where incombustibility is important.

Trisilicate, a fine-grained one, has proven to be particularly beneficial or powdery, neutral soda water glass, with a dry substance of approx 79.2%, a spec. Weight

of 0.35 - or a content of Na2O = approx 18.3%, SiO2 -ca 60.9%, H20 "approx 20.8% and a weight ratio of Na2O: SiO2 = approx 1 X 3.3 to be used Since the material is fine-grained or powdery, it is easy to dose and it is suitable especially suitable for smaller, complicated shapes.

The conditions are similar when using disilicate, a Also finely powdered, alkaline soda water glass with a dry substance of approx. 83.7% Z a spec. w. from 0.5 - 0.55, a content of Na2O = approx. 27.6 0% SiO2 - approx 56.1%, H20 = approx 16.8%, as well as a weight ratio of Na2O: SiO2 = approx 1: 2.04.

A powdered potassium water glass is also available for special areas of application available, with a proportion of dry matter of approx. 79%, a spec. Weight of 0.30 - 0.35, a content of K2O = approx 22.9%, SiO2 = approx 56.1%, H20 = approx 21% and a weight ratio of K20: SiO2 -ca 1: 2.45.

According to the invention, water glass with a dry substance is also possible to use less than 45% and still save the laborious thickening In such cases, the water glass of lower temperature is made by stirring in liquid or powdered water glass of higher gravity to a proportion of dry matter raised, which is between 45 and 86%, preferably between 48 and 80%.

Very homogeneous moldings are obtained by adding the water glass before the foaming process up to 95% proportions of crushed, ready wholly or partially added to a foamed water glass.

While you can otherwise only partially fill the forms, it is at With changing of completely or partially already foamed water glass possible that Filling molds completely and foaming them in a much shorter time. Especially with complex shapes with very different cross-sections1 is this process advisable.

Of course, you can also add other substances to the water glass, such as e.g. thermally expanded or non-expanded mica, or Liparit or Qaurzporphyr, are known under the name "Perlite" and chemically the same type as mica, but also asbestos, talc, kaolin, in particular "Neuburger Kreide", also known under the designation "Kieselweiß", "Neuburger Weiß", "Weißerede" or "Silica clay", ceramic particles, such as Fireclay powder, but also oxides such as tin oxide, tin oxide or temperature-resistant dyes, e.g. Soot, stone wood colors, etc. add.

In this way, the properties of the end product can be converted into of great diversity and adapt to special requirements The proportion of such admixtures can be so large that the water glass or the Sasserglass foam only takes on the role of a binder, the foaming process can be in open or closed appropriately temperature-resistant forms, e.g. those made of steel, brass, copper, refractory glass, ceramic or asbestos are made these still have sufficient strength at temperatures of about 6000 C, while closed forms should expediently be made of metal, open iorms, the Above all, they are used to manufacture unprompted waterglass foam crushed and mixed with unfoamed water glass is foamed again, absolutely also be made of non-metals.

It is of particular interest to then shape the water glass out expanded mica, liparite or glass porphyry, asbestos cement or other temperature-resistant Substances, e.g.

also in sheet metal, to foam up, if the foamed water also glass should remain connected to the molds after the foaming process, i.e. if it is above all serves for isolation, while the "mold" itself is part of the final shape r body represents and forms the load-bearing outer wall, a higher strength and Temperature resistance, but less good insulating properties.

The water glass foamed in open or closed forms can, according to the invention, preferably after the shaping, by subsequent mechanical Compaction by means of pressing, solidify in the edge zones. This is how you can use ZbBo small profiles simply cut out of foamed sheets and press or deform.

Powdered or crushed, only partially foamed water glass is according to the invention by means of a core shooter from a pressurized vertical valve-controlled, provided with a slide, upper container or one Chamber, in one under atmospheric pressure, with air outlet ducts or Shooting form provided with slots and then filled in under the influence of temperature foamed.

The foamed. But water glass can also be made from an unpressurized pressure standing, valve-controlled, provided with a slide, upper container or a Chamber, fill into a mold under negative pressure or vacuum and likewise foaming under the influence of temperature4 In both cases the use of such Machines not possible without further ado if the mold could not be completely filled The foaming process then only causes the cavities between the individual pre-foamed Water glass foam particles are filled and that these 'l'eilchen each other connect homogeneously, the porosity however remains.

The water glass prepared for foaming becomes plastic as soon as it is is, expediently in the required dosage, in the form of plates, rods, balls, tubes, or Drops, or. measured in a manner tailored to the final shape and to avoid evaporation of the water, on all sides for as long gassed with C02 until a protective skin of colloidal silicon gel forms0 Of course can also the surface in another meadow, e.g. by B'olienLackesWachsen etc. Such a cover or protection is only necessary if is weighed on stock and if the foaming is not immediately after the provision or the mixing of the water glass takes place.

The protective coatings are mechanically removed prior to use, provided they do not burn when exposed to temperature, the colloidal silicon gel is through breaks through the foaming water glass and lays mainly on the Mold wall where it also formed a welcome release agent instead of pulverized or crushed, partially foamed water glass, can one also use such that in small particles or drips in free fall or quickly by means of a conveyor belt through a combustion zone heated to around 5500 o is conducted, which is why only 50 - 75% foamed water glass particles arise because there is not enough time for complete foaming. The individual foamed water glass particles have hardly any connection with each other or the connection is so low that the particles separate from each other with the slightest movement.

The foaming of the water glass can be carried out in the electrically heated combustion or tunnel ovens or in those that are oil or gas heated.

The water glass can, however, also be foamed in molds by means of this hot air or superheated steam, which is not under pressure, or even such with high pressure, is conducted6 If you foam with little or no pressure, leave it as it is lower specific weights of the moldings can be achieved than when higher ones are used Press If you want to work @ with the smallest possible wall thickness for the molds, then it foams one the water glass in such forms on the turn in tightly closable Hot air or steam bells are exposed to a temperature surge of about 500 ° a, whereby the hot air or the superheated steam to the foaming water glass or through this can be passed through, through slots and bores in the form or also not in the latter case is expediently used for foaming the Water glass those shapes that are double-walled, with between the inner shape and the outer shape can be connected via slots and bores there is such a distance between the two mold parts that hot air or overheated air exists Steam can be passed through o The foamed water glass can be in the forms'or after demoulding by means of a heatable dosing device with CO2, air - because of their, if also a small proportion of 002, with acidic or other effects on water glass chem.

Steaming, e.g. Ammonia vapors.

That by foaming the water glass with or without added other Shaped bodies produced by substances can be used to increase the temperature resistance of the Foam with an aluminum sulfate solution as high as possible, by means of dipping, possibly in connection with positive or negative pressure, enriched, then dried and / or be subjected to another heat treatment at approx. 400 ° C By this treatment, the moldings are more than 100 ° C more temperature resistant than without enrichment with aluminum sulphate, at the same time as the foam itself the temperature resistance of possibly added other substances is also increased.

To the given by foaming the water glass with or without To protect molded bodies produced from other substances against moisture absorption, can you can do this by dipping in or spraying with impregnating agents, for example in or with Silicone resin emulsions or siliconates - CH3Si (OH) ONa - especially with solutions of methylphenylpolysiloxanes, with the addition of crosslinking agents and condensation catalysts, or through paraffin and wax emulsions with aluminum salts, through bitumen emulsions, water-repellent Another possibility is to do this by foaming the water glass moldings produced with or without added other substances by coating to make waterproof with a 60% ammonia-stabilized rubber milk, the Crosslinking agents such as the sodium salt of alkylnaphthalene sulfonic acid and coagulating agents Substances to which thermally expanded mica also belongs are added Made on foaming the water glass with or without added other substances Shaped bodies can also be obtained by coating them with a 60% ammonia-stabilized solution Rubber milk, if necessary by adding crosslinking agents and coagulating substances, waterproof do by adding 5 - 40% water glass to the rubber milk and The resulting layer is solidified by the action of heat and gassing with CO2 fumigation alone is also sufficient.

The foaming of the water glass with or without the enclosed Moldings made from other substances can be obtained by coating them with glazes especially those that contain water glass, with plastics, plastic lacquers, elasto -Mer organopolysiloxane products with crosslinking agents and condensation catalysts, furthermore with metal foils, against penetrating Protect liquids or also by spraying on metals of all kinds, e.g. aluminum, lead, brass, copper, Stahl u.sOwO The foaming of the water glass, without added other substances, produced boron bodies can also be made in larger blocks and then through mechanical processing, zOBO by sawing, or by means of electrically heated wires or strips, mainly those made of invar steel, to the desired dimensions cut to size.

Invar steel is preferable because of its low thermal expansion prevents the heating wires or the heating tapes from sagging.

The area of use of those produced by the process according to the invention Shaped body is mainly in the field of insulation.

The ujasser glass foam is particularly suitable for processing to sandwich panels in connection with many other insulating or non-insulating Since waterglass foam is absolutely non-flammable, it has good insulating properties and a low spec. Weight of o, 6 - o, 8 possesses, which can still be adjusted within further limits In addition to dummies, it is also used as decoration material and as light packing material suitable for air freight, especially since special emphasis is placed on separability got to.

Claims (1)

P a t e n t a n s p r ü c h e: 1. Process for the production of moldings which are wholly or partially consist of water glass foam, characterized in that water glass with a Dry matter in the range of approx. 45 - 86%, in forms at temperatures of approx. 480 - 500 ° C, depending on the wall thickness and size of the shaped body in approx. 7 to 50 min is foamed. 2. The method according to claim 1, characterized in that as water glass Liquid soda water glass with a dry substance of approx. 48.5%, a gravity from 48 - 50 ° Be, a spec. Weight from 1.49 - 1.53, a content of Na2O = approx 13.5 %, SiO2 = approx 35.0%, H2O = approx 51.5%, a weight ratio Na2O: SiO2 = approx 1: 2.6, a molar ratio Na2O: SiO2 = approx 2.63 is used. 3. The method according to claim 1, characterized in that as water glass Liquid soda water glass with a dry substance of approx. 56.4%, a gravity from 58 - 60 ° Be, a spec. Weight from 1.67 - 1.71, a content of Na2O = 18.2 %, SiO2 = approx 38.2%, H2O = approx 43.6%, a weight ratio Na2O: SiO2 = 1: 2.1, a molar ratio Na2O: SiO2 = approx 2.17 is used. 4. The method according to claim 1, characterized in that as water glass Trisilicate, a fine-grained or powdery, neutral soda water glass, with a dry substance of approx. 79.2%, a spec. Weight of 0.35-0.50, a content of Na2O = 18.3%, SiO2 = approx 60.9%, H2O = approx 20.8% and a weight ratio Na2O: SiO2 = approx 1: 3.3 is used. 5. The method according to claim 1, characterized in that as water glass Disikat, a finely powdered, alkaline soda water glass with a dry substance of approx 83.7% a spec. Weight from 0.5-0.55, a salary of Na2O = approx 27.6%, SiO2 = approx 56.1%, H20 = approx 16.8%, as well as a weight ratio of Na2O: SiO2 = approx 1: 2.04 is used. 6. The method according to claim 1, characterized in that as water glass pulverized potassium water glass, with a dry substance of approx. 79%, a specO Weight of 0.30 -% 0.35, a content of K20 r approx 22.9%, SiO2 = approx 56.1%, H2O = approx. 21% and a weight ratio of K20 SiO2 = approx. 1: 2.45 is used, 7. The method according to claim 1, characterized in that water glass with a dry substance less than 45% is used by stirring in liquid or powdery Water glass of higher gravity is raised to a proportion of dry matter, which is between 45 and 86%, preferably between 48 and 80%, according to 80 processes claims lo w 7. a characterized in that the water glass from the foaming process Up to 95% share of shredded, already wholly or partially foamed Water glass is added. 9o method according to claims 1 a - 80 'characterized in that, that other substances, such as zoBo expanded or non-expanded mica, or Liprit or Qurzporphyr, asbestos, talc, kaolin, especially so-called "Neuburger Chalk ", ceramic particles, e.g. grit, oxides such as tin oxide, zinc oxide or temperature-resistant dyes, e.g. soot, stone wood paints, etc. 0 lOo method according to claims lo - 90, thereby characterized in that the water glass in open or closed, correspondingly temperature-resistant Molds, e.g. made of steel, brass, copper, refractory glass, ceramic or asbestos, foamed wird0 llo method according to claims 1-90, characterized in that the Water glass in forms made of expanded mica, liparite or quartz porphyry, asbestos cement or other temperature-resistant materials, e.g. sheet metal, is foamed, with to which it remains connected even after the foaming process0 12. Method according to claims 1-10, characterized in that the open or closed forms foamed water glass by subsequent mechanical Compaction by pressing, preferably after demolding, in the edge zones is solidified. l3o method according to claims 1.-11., characterized in that, that only powdered or crushed, only partially foamed water glass means a core shooter from a valve-controlled valve that is under overpressure a slide provided, upper container or chamber, in a below atmospheric Pressurized shooting form provided with air outlet ducts or slits and then foamed under the action of temperature. 14. The method according to claims lo - 11, characterized in that that only powdered or crushed, only partially foamed water glass, from an overpressure, valve-controlled, provided with a slide, upper Container or chamber, filled into a mold under negative pressure or vacuum and then foamed under the action of temperatureb 150 according to the method claims lo - 14th, characterized in that the prepared for foaming Water glass, as far as it is plastic, in the required dosage in plates, Bars, balls, drops or in a form tailored to the final shape Measured correctly and the surface is exposed to C02 on all sides as long as until a protective skin of colloidal silicon gel was formed 16. Imitating the process claims 1 - 15, characterized in that instead of pulverized or crushed, only partially foamed water glass is used, that in small particles or drops in free fall or by means of a conveyor belt quickly through a the firing zone heated to approx. 500 ° C is passed, whereby 50 - 75% foamed water glass particles are formed, which are among each other hardly any connection be seated 17. Method according to claims 1.-14 and 16., characterized in that the water glass is heated electrically, oil or gas Kiln or tunnel kilns is foamed. 18. The method according to claims lo - 16 0 'characterized by this, that the water glass in the molds is foamed on that by this hot air or superheated, almost pressureless steam, or also steam with high pressure, is directed. 19C method according to claims 1. -16., Characterized in that that the water glass is foamed on in such forms, which in turn in tight lockable hot air or steam bells, a temperature surge of approx. 500 ° C exposed, the hot air or the superheated steam to the foaming Water glass or through this, through slots or holes in the mold, have access may or may not. 20. The method according to claims 1 - 16, characterized in that that the water glass is foamed in such forms that are double-walled, with between the inner shape and the outer shape are the slots or holes @ @ @lcher gap exists that hot air or overheated Steam can be passed through to children. 21. The method according to claims 1.-14 and @o, characterized in that that @@@ water glass @@ foaming process in de @ standards, or according to their demould @ @ means a heatable dosing device with CO2, air, acidic or other chemical Steaming, e.g. steaming ammonia, is fumigated. 22. The method according to claims 1-20, characterized in that that by foaming the water glass with or without added other substances , produced molded body by enrichment with an as much as possible percentage Aluminum sulfate solution, enriched by immersion, possibly in connection with positive or negative pressure, then dried and / or subjected to renewed heat treatment at approx. 400 ° C will. 23. The method according to claims 1.-23, characterized in that that by frothing the water glass with or without added other substances manufactured moldings e.g. by dipping in or spraying with impregnating agent, for example in or with silicone resin emulsions oedr Siliconaten - CH3Si (OH) 2ONa - especially with solutions of methylphenylpolysiloxanes, with the addition of crosslinking agents and condensation catalysts, or by paraffin and wax emulsions with aluminum salts, by bitumen emulsions, can be made water-repellent. 24. The method according to claims 1.-22, characterized in that that by frothing the water glass with or without added other substances molded bodies produced by coating with a 60% @, ammonia-stabilized Gummy milk made waterproof @@ der @ the crosslinking agent, such as the sodium salt of @@@@ @@ tali @ sulf @ acid and coagulating @ t @ ff @, to @ er @ n z @@ @@@@ chemically bloated Mica belongs, @@ s @@@ 25. The method according to claims 1.-22, characterized in that that by frothing the water glass with or without added other substances molded body produced by coating with a 60% @ ammonia-stabilized Gum milk optionally by adding crosslinking agents and coagulating agents Fabrics can be made waterproof by adding 5 - 40% water glass is added to the resulting layer through the action of heat and Fumigation of CO2 solidified. 26. The method according to claims 1.-23, characterized in that that by frothing the water glass with or without added other substances molded bodies produced by coating with glazes, especially those that contain water glass, with plastics, plastic lacquers, elastomers Organopolysi loxane products with crosslinking agents and condensation catalysts, also with metal foils or by spraying metals against penetrating Liquids are protected 27. Method according to claims 1-8, 12-22, as characterized in that by foaming the water-glass, without added other fabrics, molded bodies made in larger blocks and made by mechanical processing e.g. by sawing, or by means of electrically heated wires or tapes are bracnt to the desired dimensions0