DE2019781A1 - Building compsn contng hydrated inorganicbin - - Google Patents

Abstract

Building material increasing in strength within first 12 hrs. is made by adding hydrated inorganic binder, pref. hydrated Portland cement, Al2O3 fused cement, Portland cement ferroconcrete, blast furance cement, gypsum or anhydrite, and in some cases hydrated Ca Zincate, with 40 mu, advantageously 5 mu, particle size to composition consisting of inorganic binder, SO3H-containing amino-1,3,5-triazine-HCHO condensates (A) and fillers.

Description

Süddeutsche Kalkstickstoff-Werke AG., Frostberg / Obb.

Building material mixture The invention relates to a building material mixture Basis of amino-1,3,5-triazine resin containing sulfonic acid groups, inorganic Binders and, if necessary, julanizers.

From the Austrian patent specification 263 607 building material mixtures are known, which in addition to inorganic binders and possibly fillers with sulfite modified resins based on an amino-1,3,5-triazine with at least two NH2 groups contain. These building material mixtures can be used in many ways.

The addition of the resins mentioned increases in particular the adhesive, tensile strength and compressive strength surface quality, wear resistance and durability against chemicals in the products made from the known building material mixtures.

The good strength values are achieved when using the known Building material mixtures, however, only reached after more than 12 to 16 hours, what for special applications are not always sufficient.

The invention is therefore based on the object of a building material mixture to create which is a good increase in strength when made from it Finished products guaranteed within the first 12 hours. This task is achieved according to the invention by a building material mixture which, in addition to sulfonic acid groups containing amino-1,3,5-triazine-formaldehyde condensation products, inorganic Binders and possibly

Fillers also contain hydrated inorganic binders a grain size below 40, preferably below 5, autweists below grain size understood the mean grain size. When using hydrated binders with a grain size of more than 40 ii there is only a very small increase the early strength. There is a lower limit for the grain size practically not. It is determined by economic considerations. A salary from 0.1 to 10% by weight of hydrated inorganic binders, based on the The total weight of the inorganic binder is generally sufficient for the desired Increase in early strength.

However, larger or smaller amounts can also be used, depending on the desired effect.

The usual inorganic binders can be used as hydrated inorganic binders Binders in hydrated form are suitable. Hydrated Portland cement is preferred, Alumina cement, iron portland cement, blast furnace cement, gypsum or anhydrite. In special cases, hydrated calcium zincate is also suitable. The hydrated Binder can be derived from the inorganic binder used itself by hydration tion must be derived.

The required grain size of the hydrated binder can be earth obtained in any way, for example by appropriate duration of the grinding process.

The actual inorganic binder, which in the invention Building material mix in non-hydrated form is present, one can the usual inorganic binders, such as a type of cement or a calcium sulfate be with binder properties. The selection is made as well as the selection of suitable ones Fillers depending on the type of finished products desired. So be for-making of precast concrete parts e.g. cement as an inorganic binder, for example Portland cement 275, and sand or fly ash used as aggregate. For lightweight concrete e.g. foamed plastics, expanded clay and other foamed materials are used as additives inorganic materials, such as foam glass, for cement-bound lightweight panels e.g. wood wool, wood shavings, cork shavings and the like.

used. Inorganic and organic fiber material is also used, especially in plate making. For the production of screeds s.B. Anhydrite combined as an inorganic binder and sand as a filler. The fillers can be used in the usual amounts for building material mixtures, as they result from the DIN regulations 1164 and 4208, for example.

Amino-1,3,5-triscin-formaldehyde condensation products containing suitable sulfonic acid groups are commercially available and are for example in the Austrian patent specification 263 607. The resins can be in the form of their aqueous solutions or as Solids are used. Suitable aqueous solutions are e.g. X with a solid concentration of 20 wt .-% and a viscosity of -10 or 20 cP under the name Melment R L 10 to L 20, or as a solid under the name Melment R F 10, F 20 im Trade. The resins are suitably used in an amount of 0.5 to 2% by weight, preferably 0.1 to 1.3% by weight of solid resin, based on the total weight of the inorganic binder used. The optimum increase in strength was achieved, for example, when using 5% by weight 20% by weight solutions (= 1% by weight solid resin) achieved. In some cases, however, it was enough the addition of 0.7% by weight resin solids resulted in a very pronounced increase the desired early strength and more than 1.3 wt .-% solid resin were in none Case needed for a marked improvement.

The following examples further illustrate the invention.

Example 1 With a slump of 18 + 1 cm were used con Portandzement (PZ 475 according to DIN 1164) based on DIN 1164 test specimen 4x4x16 cm and on the shock table according to the RILEM-CEM process (suggestion for a method recognized in many countries for testing cement).

The storage up to the test took place at 20 ° C and 65% relative Humidity.

The composition of the building material mixes used is the result from Table 1. The hydrated binder was hydrated high-alumina cement (TSZ) was used, which had been manufactured as follows: Type A 4: TSZ was used in a Hydrated water cement value of 0.6. Several days after hardening, the Cement stone crushed to a grain size <40 µ.

Type A 3 0.5 kg TSZ were mixed with 2.5 kg of water in a ball mill for 24 hours ground to <40 µ. The aqueous suspension was added directly to the mortar mix added.

Type A 2: TSZ was hydrated at a water-cement value of 0.6. After 3 days, 100 g of the cement stone were mixed with 500 g of water in the vibratome oscillating mill 48 hours

on (40 μ ground) The aqueous suspension was added directly to the mortar mixture added.

Type A 1: 100 g TSZ were mixed with 500 g water for 48 hours in the vibratome oscillating mill ground to <40 µ. The aqueous suspension was added directly to the mortar mix added.

T a b e l l e 1 Test additives in% by weight, water flexural tensile strength Compressive strength no. Based on PZ 475 cement kg / cm² after hours. Kg / cm² after hours.

Resin value 1) Hydrate TSZ 6 12 24 6 12 24 (type) 1 without additive without additive 0.56 1 13 41 6 61 204 2 5 "" 0.51 2 30 6 + 3 8 130 321 3 5 1 (A 4) 0.51 2 28 61 9 125 320 4 5 5 (A 4) 0.52 2 32 60 9 134 312 5 5 0.2 (A 3) 0.51 3 32 63 10 143 341 6 5 1.0 (A 3) 0.52 6 34 57 18 155 310 7 5 0.2 (A 2) 0.51 3 10 8 5 1.0 (A 2) 0.52 5 12 9 5 0.2 (A 1) 0.51 3 9 10 5 1.0 (A 1) 0.52 4 11 1) containing sulfonic acid group Amino-1,3,5-triazine-formaldehyde resin as an aqueous solution with a solids content of 20% and 10 cP. The same results were obtained when using an appropriate amount of solid resin achieved (MelmentR L 10 or L 20, F 10 or F 20) An addition of hydrated alumina cement with an average grain size of 70 Compared to the comparative values of test numbers 1 and 2, µ did not result in any increase in strength.

Example 2 With a slump of 18 + 1 cm, PZ 475 in Based on DIN 1164 test specimen 4x4x16 cm produced and on the shock table compacted using the RILEM-CEM process. The storage of the test specimens until the test after 6 hours it took place at 20 ° C. and 65% relative humidity. The composition of the building material mixture used is shown in Table 2. As a hydrated binder hydrated PZ 475 was used, which was obtained as follows: Type A - D: PZ 475 was hydrated at a water-cement value of 0.6. After 7 days the cement stone was crushed. 100 g of cement stone were mixed with 500 g of water ground in the vibratome mill for different milling times.

average type A: grinding time: 5 hours grain size 3.7 "B: "10" "2.5 µ" C: "24" "1.8 µ" D: "48" "1.3 µ The aqueous suspensions were each added directly to the mortar mixes.

Type E: 100 g of PZ 475 were mixed with 500 g of water in a slow running Ball mill ground for 7 days. Average grain size 0.8 µ.

Table 2 test additives in% by weight, based on water strengths kp / cm² after 6 hours.

No. on PZ 475 cement value resin 1) hydrate. PZ 475 flexural strength. Compressive strength (Type) 1 no addition no addition 0.51 2 9 2 5 "" 0.48 3 8 3 5 5 (A) 0.52 5 13 4 5 5 (B) 0.52 5 14 5 5 1 (C) 0.50 4 9 6 5 5 (C) 0.52 6 19 7 5 1 (D) 0.52 4 10 8 5 5 (D) 0.52 7 22 9 5 1.25 (E) 0.49 4 12 10 5 6.25 (E) 0.58 8 22 1) See footnote on Table 1 Example 3 With a slump of 15 # 1 cm Anhydrite (AB 200 according to DIN 4208) in stored condition based on DIN 42Q8 test specimens 4x4x16 cm manufactured and compacted on the shock table using the RILEM-CEM process. The storage of the test specimen up to. the test followed at 20QC and 65% relative Air humidity The composition of the building material mixture used results from Table 3. The hydrated binding agent used was hydrated anhydrite, which was obtained as follows: Anhydride AB 200 (exciter K2SO4) was used in a Hydrated water anhydrite value of 0.40. After 3 days the hydrated became Anhydrite crushed to <40 µ.

Table 3 Additions in% by weight Water resistance Strength search- based on Anhykp / cm² kp / cm² No. hydrit AB 200 third after 6 hours 12 hours

Resin 1) hydrate. Value bending pressure bending pressure anhydrite add. fixed. add. fixed.

1 without without 0.42 2 5 12 46 additional addition 2 5 "0.32 2 5 12 76 3 5 1 0.33 3 8 19 128 4 5 5 0.32 4 9 13 92 1) See footnote to Table 1

Claims (4)

P a t e n t a n s p r ü c h e 1. Building material mixture consisting of inorganic Binders, amino-1 3, 5-triazine-formaldehyde condensation products containing sulfonic acid groups and optionally fillers, characterized by a content of hydrated inorganic binder with a grain size below 40 Cr, preferably below 5 p. 2. Building material mixture according to claim 1, characterized in that the content of hydrated inorganic binders is 0.1 to 10% by weight, based on based on the total weight of the inorganic binders. 3. Building material mixture according to claim 1 or 2, characterized in that that they are hydrated inorganic cement as hydrated inorganic binders, Alumina cement, iron Portland cement, blast furnace cement, gypsum or anhydrite contains. 4. Building material mixture according to one of the preceding claims, characterized characterized in that they contain 0.5 to 2% by weight, preferably 0.1 to 1.3% by weight, of sulfonic acid groups containing amino-1,3,5-triazine-formaldehyde condensation product, as a solid resin based on the total weight of the inorganic binder.