COMPOSITION FOR JOINTS

Abstract

A composition based on calcium carbonate includes nanometric boehmite and/or nanometric aluminium trihydroxide. A coating can be obtained from this composition. This composition makes it possible to obtain products having better high-temperature dimensional stability.

Claims

1-11. (canceled)

12. A composition based on calcium carbonate, comprising: nanometric boehmite and/or nanometric aluminium trihydroxide.

13. The composition according to claim 12, wherein the composition comprises: from 50 to 99 wt % of the calcium carbonate, from 0.1 to 10 wt % of particles of the boehmite and/or of the aluminium trihydroxide smaller than 950 nm, and at least one additive.

14. The composition according to claim 13. wherein the at least one additive is organic.

15. The composition according to claim 12, further comprising from 0.5 to 10% of at least one organic additive allowing chemical setting of said composition after forming or binder.

16. The composition according to claim 12, further comprising at least one mineral additive.

17. The composition according to claim 12, wherein a size of particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is below 750 nm.

18. The composition according to claim 17, wherein the size of the particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is above 20 nanometres.

19. The composition according to claim 12, wherein a size of particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is below 500 nm.

20. The composition according to claim 19, wherein the size of the particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is above 20 nanometres.

21. The composition according to claim 12. wherein a size of particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is below 400 nanometres.

22. The composition according to claim 21, wherein the size of the particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is above 20 nanometres.

23. A coating, comprising: the composition according to claim 12, mixed with water.

24. The coating according to claim 23, in which water content by weight is between 28 and 40%.

25. A product based on calcium carbonate, comprising the composition according to claim 12, wherein the product is for making a joint.

26. A method for fireproofing a product, comprising: forming the product from a composition based on calcium carbonate, in which nanometric boehmite and/or nanometric aluminium trihydroxide is added to the composition.

27. A method of manufacturing an element of construction, comprising: mixing a composition based on calcium carbonate comprising nanometric boehmite and/or nanometric aluminium trihydroxide to form the element of construction.

28. The method according to claim 27, wherein the element of construction is a joint.

29. An element of construction, comprising: the composition according to claim 12.

30. An element of construction, comprising: the coating according to claim 23.

31. An element of construction formed by the method according to claim 27.

Description

[0026] The present invention also relates more generally to the use of nanometric boehmite and/or of nanometric aluminium trihydroxide (notably the use of the composition described above) for making products based on calcium carbonate, in particular joints based on calcium carbonate.

[0027] The present invention has demonstrated that addition of nanometric boehmite and/or nanometric aluminium trihydroxide to a composition based on calcium carbonate makes it possible to endow a product prepared from this composition with improved properties of fire resistance or stability, notably high-temperature dimensional stability (starting from 500 C. and in particular above 900 C., or even above 1000 C.).

[0028] Hereinafter, in the present invention, calcium carbonate notably means any calcium carbonate (CaCO.sub.3) that may be of natural or synthetic origin; however, said calcium carbonate may include some impurities. Notably it is possible to use any calcium carbonate suitable for preparing conventional joints for plasterboard.

[0029] Composition based on calcium carbonate means any composition in which calcium carbonate is the predominant component by weight and notably any composition in which calcium carbonate represents more than 50 wt % of the dry mix.

[0030] Boehmite means an aluminium oxyhydroxide (also called alumina monohydrate, or else aluminium oxide (mono)hydroxide) of formula AlO(OH) (in particular the gamma polymorphic form); aluminium trihydroxide means an aluminium (tri)hydroxide (also called alumina (tri)hydrate, or else aluminium oxide (tri)hydrate) of formula Al(OH).sub.3; nanometric component (boehmite and/or aluminium trihydroxide) means particles (of or forming said component) having a dimension or size below 950 nanometres, preferably below 750 nm, and notably below 500 nm, regardless of the shape of said particles.

[0031] Size of a particle is its equivalent diameter, i.e. the diameter of the sphere that would behave identically in granulometric analysis of the particles (or powder formed from said particles) forming (initially) the component in question, the granulometric distribution (set of particle sizes) being measured in particular by laser granulometry.

[0032] In the present invention, x wt % of nanometric component (boehmite and/or aluminium trihydroxide) signifies that the composition incorporates x wt % of particles of this component having a size below 950 nm (preferably below 750 nm, and notably below 500 nm); however, other particles of this component of larger size may be present in the composition (in other words, x % of nanometric component signifies x % of particles (of this component) that are nanometric/smaller than 950 nm). The size distributions are given using the D10, D50 or D90 percentiles, as applicable; Dy signifies that y % of the particles of the set of particles considered (or of the powder considered) have a size below Dy, and (100-y) % are larger.

[0033] As mentioned above, the size of the particles is measured by laser granulometry, for example using a granulometer marketed under the reference Partica LE-950 by the company Horiba, the powders being analysed in water, without using ultrasound.

[0034] Addition of nanometric boehmite is also particularly preferred relative to addition of aluminium trihydroxide in the present invention.

[0035] Preferably, the content of nanometric boehmite and/or of nanometric aluminium trihydroxide in the composition defined according to the invention is above 0.2%, notably above 0.3%, in particular above 0.4%, or above 0.5 wt %, or even above 0.7 wt %. Also preferably, the content of one or other of these compounds is below 9%, notably below 8 wt %.

[0036] Moreover, the size of the particles of nanometric boehmite and/or of nanometric aluminium trihydroxide is advantageously below 750 nanometres, or even below 500 nm, or even below 400 nm, notably below 300 nm, in particular below 200 nm. It is also advantageously above 20 nm, notably above 50 nm, in particular above 60 nm, or even above 80 nm.

[0037] In an especially preferred embodiment, the composition according to the invention comprises from 0.5 to 8 wt % of particles of boehmite, all the particles having a size below 750 nm, preferably a size between 20 and 500 nm.

[0038] Boehmite (or aluminium trihydroxide) may notably be added in the form of powder or in the form of colloidal suspension (dispersion in water or an acid notably) to the composition according to the invention or to a coating according to the invention.

[0039] Fibres (in the form of film, cloth, mat, etc.) or other reinforcements (cardboard sheet, etc.) may be envisaged in the products obtained from the composition according to the invention; the composition may be, for example, used as one or more layers for forming a joint, or for sticking a reinforcement or a part or jointing strip, and may also be used for making the finishing layer covering a reinforcement or a part or jointing strip, etc.

[0040] It has been observed that the products according to the invention are enriched with aluminium (observation by chemical analysis), have nodules, consisting in particular of aluminium and oxygen, intermingled with the calcium carbonate structure (observation by scanning electron microscope), and display a weight loss at around 220-320 C. for the products based on aluminium trihydroxide and at around 400-500 C. for the products based on boehmite (observation by thermogravimetric analysis (TGA)).

[0041] The present invention will be better understood and other details and advantageous features of the invention will become clear on reading the following examples, given for purposes of illustration, and non-limiting.

[0042] In order to test the performance of a composition according to the invention intended for forming joints in plasterboard, boards of 20 cm25 cm were prepared with Placomix Premium coating, a joint coating for plasterboard, marketed by the company Placoplatre and predominantly comprising calcium carbonate mixed notably with the amount of water necessary for preparation thereof.

[0043] A first board is prepared with the coating alone, as reference example. A second board according to the invention is prepared, further comprising a powder (powder B3 in the table) of particles of nanometric boehmite (all) having a size below 500 nm (and in particular a high proportion of particles smaller than 200 nm) in the proportions shown in Table 1.

[0044] Samples of parallelepipedal shape, with length equal to 200 mm and width equal to 150 mm, were taken (notably by cutting) and put in a furnace with a programmed rate of temperature rise according to standard ISO834, the dimensional variation of the width of the sample being recorded continuously. When the temperature reaches 500 C. and then 700 C., the shrinkage of the sample is measured, designated R500 and R700 respectively. After 60 minutes, the temperature reaching 945 C., the shrinkage of the sample R945 was measured. After 120 minutes, the temperature reaching 1049 C., the shrinkage of the sample R1049 was measured. The values of shrinkage (or dimensional variation), expressed in percentages, are given in Table 1.

TABLE-US-00001 TABLE 1 Example according Reference example to the invention Placomix Premium 100 parts by weight 100 parts by weight Powder B3 3 parts by weight R500 0.4 0.1 R700 0.5 0.1 R945 3.7 2.0 R1049 10.6 2.3

[0045] As shown in Table 1, addition of nanometric boehmite gives a significant improvement in high-temperature dimensional stability of the compositions based on calcium carbonate in a temperature range from 500 C. to more than 1000 C.

[0046] The composition according to the invention may notably be used advantageously for obtaining plasterboard joints for forming and/or covering partitions or ceilings of buildings, or alternatively as a joint or grouting coating, notably so as to produce a seal around pipes or cables which pass through floor tiles or walls, etc.