DE2366095B2 - Fibers of vitreous structure of the system SiO? 2? - CaO-Al 2 O 3 with good resistance to concrete - Google Patents

Description

The present invention relates to fibers of the SiO ₂ -CaO-Al ₂ O _{3 system} with good resistance to the basic environment present in concrete.

Commercially available glass fibers are known to be due to their chemical composition and structure attacked by basic solutions and thus by building materials based on inorganic binders and decomposed, so that the favorable mechanical properties, especially the high tensile strength of the fibers, get lost. Their use in construction to improve the mechanical properties of Building materials, especially concrete, based on inorganic binders, such as. B. cement or building lime is therefore not possible because these binders are mixed with water solutions with pH values between about 12 and 13 form which attack and destroy the glass fibers.

So far, three main paths have been taken, the obstacle of the lack of chemical Eliminate resistance of the glass fibers. Attempts were made to improve the elasticity of the binder suspension media to reduce. Naturally, this method cannot completely prevent the chemical attack. Furthermore, glass fibers have been developed that work against the basic environment of the cement stone resistant protective layer are coated. The protective layer can e.g. B. Divinylacetylenlack, polyvinyl acetate or Polyäthylhydrosiloxan exist. It is obvious that the bond between such glass fibers and the binder is weakened by the plastic layer. It can also be used for further processing The protective layer of the glass fibers for the production of building materials are damaged, so that then chemical corrosion can occur at least in part.

Glasses that are resistant even under normal conditions have proven to be non-existent in the form of fibers in the concrete consistently proven. Therefore, their use was only in connection with low-alkali binders such as Alumina cements are possible, but are not permitted in building construction. The high ones are also disadvantageous Manufacturing costs of the glass fibers from resistant glasses, for example borosilicate glasses.

In DE-AS 19 42 991 mineral fibers suitable for use in building materials with a substantial proportion of crystal phase are described, which consist of an oxide melt with an SiO ₂ , Al ₂ O ₃ , CaO and Fe ₂ O ₃ content and a possible addition of secondary components were produced that have a composition of the "wollastonite" or calcium orthosilicate type

50 to 60 percent by weight SiO ₂ ,
O to 8 percent by weight Al ₂ O ₃ ,

30 to 48 percent by weight CaO,
O to 3 percent by weight Fe ₂ O ₃ and
0 to 8 percent by weight alkali oxides

ίο have. The expert inferred from this interpretative document, that such fiber material is particularly suitable for use in building materials that after not significantly affected by water or lime for a long time, so that the building material no loss of quality due to the incorporated fiber material, e.g. B. in terms of its strength, A suffers Fiber material that meets these chemical stability requirements must be in accordance with this publication contain a substantial proportion of crystal phase.

Conversely, this publication also reveals that mineral fibers without a certain crystalline content are unsuitable for use in building materials because their use is subject to a certain degree of uncertainty _{due to their chemical attack by alkaline substances such as Ca (OH 2)}

In the reference Silikattechnik 10 (1959) No. 2, pp. 88-90, it is first stated that glasses of the SiO ₂ -Al ₂ O ₃ -RO system include a basic eutectic with 62% SiO ₂ , 15% Al ₂ O ₃ and 23 % CaO. This is about the physicochemical term eutectic, which is known to denote a characteristic mixture of two or more substances which, in this special composition, form a homogeneous melt at a particularly low temperature, which in the present case is specified as 1170 ° C. Any deviation from the specified characteristic composition already causes an increase in the melting temperature. It is not known to produce fibers from this eutectic mixture that have and retain a vitreous structure, and it was by no means to be expected that such fibers would be characterized by particular resistance to the environment encountered in hardened concrete. Based on the eutectics, the chemical compositions were varied within wide limits, specifically in different ways for use in tubes, large hollow glass bodies or glass fibers. When it comes to fibers, namely the Dutch patent 2 18 012 dealt with there or the

Glass No. 39 from Tukatschinski always adds substantial proportions of 8 to 12% MgO.

The present invention relates to fibers of the SiO ₂ - CaO - Al ₂ O _{3 system} with good resistance to the medium present in concrete, which are characterized by the fact that they have the following composition in percent by weight:

15 to 50 CaO
40 to 65 SiO ₂
Ibis 20 Al ₂ O ₃

and at most 2 percent by weight of iron oxide and / or alkali oxide impurities and that they are in glassy structure do not have a crystalline phase.

That fibers of this system, which are completely glassy and do not have a crystalline phase, are significantly more resistant to the basic environment of the cement paste than representative "alkali-resistant" ones Glass fibers, so that reinforced cement

Test specimens significantly higher strengths, in particular achieve in long-term experiments was by no means to be expected. The fibers move in their chemical Composition in the range of the well-known calcium-rich glassy blast furnace slag, which is known are latently hydraulic and z. B. ground with Portland cement in the presence of water calcium hydrosilicates form (metallurgical cements). It was therefore to be expected that Fibers made from calcium-rich glasses combined with cement in the manufacture of Building materials would be dissolved or destroyed.

Surprisingly, however, it has been shown that the Fibers of vitreous structure produced from glass melts of the chemical composition given above a high resistance to the basic environment in concretes made of inorganic Own binders.

Suitable glass melts for producing the fibers of the SiO ₂ -CaO- (Al ₂ O ₃ ) system with a vitreous structure and without a crystalline phase can usually be obtained by mixing natural or synthetic calcium oxide and silica-containing raw materials and then melting the mixture. In particular, calcium oxide, calcium hydroxide or other calcium salts such as limestone are suitable as CaO components, which can also contain MgO, and quartz sand, quartz powder, silica gel or other forms of silica are suitable as Si02 components will. A possible silica carrier is primarily SiO ₂ dust, which is produced in the furnace's exhaust system during the production of Si metal, ferrosilicon, silicon carbide and so on. It is harmless if impurities in iron and alkali oxides totaling at most 2% by weight or low levels of fluorine and phosphorus are introduced via the raw materials.

The production of the glass fibers from the calcium silicate glass melt takes place by means of known procedures, the cooling conditions being selected in such a way that nucleation and growth in the glass fiber are suppressed. The glass fibers preferably have a length between 0.5 and 5.0 mm and a diameter of 0.005 to 0.05 mm. Such defined dimensions only exist in textile, ie spinnable fibers, but not in fibers which are mostly produced for insulation purposes in blown or centrifugal processes. The fibers have a high modulus of elasticity in the range from 56,000 to 64,000 N / mm ² and tensile strength values in the order of magnitude from 80 to 130 N / mm ² . Their suitability for reinforcing concrete on the basis of these mechanical values was then surprisingly also given due to their chemical resistance. By means of X-ray diffraction analyzes it could be established that

Table 1

Chemical composition (% by weight)

the calcium silicate or calcium aluminosilicate fibers according to the invention do not have a crystalline phase, but have solidified glassy.

These fibers are equally suitable as an additive for reinforcing concrete based on calcium aluminate or Portland cement. They raise that Tensile strength of the concrete even without this wearing steel reinforcements and thus at the same time Flexural tensile strength and impact strength, as well as its resistance to flaking at higher temperatures. The reinforcement of the concrete by these glass fibers can be carried out in an advantageous manner Steel inserts are combined.

The vitreous structure fibers according to the invention are also suitable for the production of others Cement-based building materials, especially for those who have previously been reinforced with asbestos fibers, such as Finishing plasters, ready-made mortars and plasters, as well as plates, corrugated sheets, pressure pipes. Flower boxes, gutters, Gutter pipes and other products labeled as asbestos-cement items.

Furthermore, their use in building materials based on other inorganic binders such as. B. Building lime and gypsum and in building materials based on organic binders are possible. Also the use as a reinforcing filler for plastics.

Another interesting field of application is the hydrothermally hardened concrete sector. here the glass fibers also serve as aggregate to reinforce the concrete. They react in the autoclave process with the basic solution only imperceptibly and are therefore almost retained in their dimensional stability. Their light color is particularly advantageous in this context, so that the calcium silicate concretes made from them not only in terms of strength, but also their light or white hue keep.

The invention is explained in more detail using the following example:

example 1

According to DIN 1164, part 7, prisms were produced using Portland cement PZ 350 with a water cement factor of 0.3. A comparison prism was made without any additive, another made of 95% of the cement and 5% standard sand of the grain group fine according to DIN 1164, part 7 point 1.1 with the same amount as this inert substance (5%) were then prisms using different glass fibers, namely alkali silicate fibers, silica glass fibers, borosilicate glass fibers and calcium silicate or calcium aluminosilicate fibers of vitreous structure according to the invention.
The fibers according to the invention with a vitreous structure had the composition shown in Table 1.

Calcium silicate fiber SiO ₂ AI ₂ O ₃ CaO FeOj + FeO glassy structure + Na ₂ O + K ₂ O number 1 46.6 1.0 51.6 0.8 2 40.2 20.0 38.8 0.8 3 60.2 20.0 19.3 0.1 4th 61.1 12.0 26.4 0.5 5 66.3 18.5 14.5 0.9

The different types of fiber had fibers of the same length and diameter.

To determine the resistance of the fibers in an environment such as that found in hardened concrete, the fibers were under DIN 1164, part 7, point 2.4 from the first day after production Stored water at 20 ° C and then the free CaO (OH2) content of the prisms is chemically determined. These values were compared in each case with the value of the prisms which were produced with the addition of inert substance where the latter was set equal to 100 .vurde. If also the glass fibers with the free Ca (OH)? react and thus become unstable, the free one must in comparison with the inert substance prisms The Ca (OH) 2 content of the comparison prisms decreases.

In table 2 in column 2 the relative contents of free Ca (OH) ₂ after 180 days for the individual types of prism have been breastfed. It can be seen that the calcium silicate or calcium silicate fibers of vitreous structure No. Ca (OH) ₂ , while the comparison fibers react clearly with the free Ca (OH) ₂ habea This fact is also reflected in the strength values listed in columns 2 to 4 in Table 2. The strengths were respectively

ίο based on the value of the pure cement prisms and calculated in relation to this as a percentage. This shows that again the using of the fibers of the invention glassy structure No. 1 to 4 produced prisms significantly higher Achieve strength, especially after 180 days.

Table 2 5% rel. Content of rel. Flexural strength (%) according to 18C days rel. pressure 5% free Ca (OH) ₂ 100.00 strength (%) Prism, made under Addition after 180 days (%) - after of 5% 5% 90 days 125.74 180 days 5% - 100.00 100.00 5% 100.00 - 103.85 - Without addition 5% 85.88 121.23 103.88 77.88 Inert substance 5% Alkali silicate 5% 80.86 96.12 135 80.86 glass fiber 5% 79.77 97.95 132 87.32 Fused silica fiber 5% 164 Borosilicate glass fiber 99.5 112 173 113 Calcium silicate fiber 99.0 112 148 121 number 1 98.1 144 128 2 97.2 148 124 3 98.5 135 124 4th 5

Claims (1)

Patent claims: 1. Fibers of the SiO ₂ -CaO-Al ₂ O _{3 system} with good resistance to the environment present in the concrete, characterized in that they have the following composition in percent by weight: 15 to 50 CaO
40 to 65 SiO ₂
Ibis 20 Al ₂ O ₃ as well as at most 2 percent by weight iron oxide and / or alkali oxide impurities and that they do not have a crystalline phase in the case of a glassy structure. 2. Fibers according to Claim I _1, characterized in that they contain at most 1 percent by weight of iron oxide and / or alkali oxide impurities.