FR2980192A1 - METHODS FOR DECORATING CONCRETE STRUCTURES - Google Patents

Abstract

The present invention relates to a method of decorating a concrete structure, comprising the following steps: a. coating a permeable substrate with a photosensitive emulsion, b. exposing the substrate thus coated with the emulsion to a source of light radiation so as to form an image on the substrate, c. developing the emulsion so as to have a local permeability of the substrate related to the image, d. affixing the substrate after developing the emulsion on at least one face of the concrete structure, e. depositing on the concrete structure, through the substrate, a mixture comprising a varnish and / or a coloring agent, so as to reveal an image-related pattern on the concrete structure.

Description

The present invention relates to various methods of manufacture and decoration. of concrete structures. The term "concrete" refers to a material made from aggregates, for example sand and / or chippings, agglomerated with a binder. The binder can for example be "cement", that is to say, taken by hydration, thereby obtaining a concrete cement. The mechanical compressive strength of concrete varies depending on the nature of the concrete itself, for example depending on the amount of water contained in the concrete. The orders of magnitude conventionally obtained on cylindrical test specimen 16 * 32 nuu, are of the order of: 25 to 35 MPa, or even 50 MPa, for a concrete type BFC (concreting manufactured on site), from 40 to 60 MPa for a concrete type BPE (Ready Mixed Concrete), 15 up to 200 MPa for a concrete type.BHT (High Performance Concrete), about 500 MPa for a concrete type BUHP (Ultra High Performance Concrete). Concretes of the Ultra High Performance type (BUHP) and concretes of the Fibré Ultra Haute type. Performance (BFUHP) are preferred for practicing the present invention. In all of the following aspects, the concrete structure may be a structure, a partition, a post, a constituent part of a residential building or office building, a piece of furniture, a floor covering, a cladding, As a first aspect, the subject of the invention is a method of manufacturing a concrete structure, comprising the following steps: pouring concrete into a mold, in particular concrete of the Ultra High Performance type (BUHP) or of the Fibré Ultra High Performance type (BFUHP), 30 - counteracting the evacuation of air bubbles to the upper surface of the concrete, so as to reveal asperities, when taking concrete, vibrate the mold so as to evacuate at least partially the air bubbles contained in the concrete. The evacuation of the air bubbles is for example counteracted by a solid part, for example a plate, for example glass or wood, which can be attached to the mold, for example, and which has for example a horizontal surface in contact with concrete. The area of the solid part may be greater than or equal to 1 cm -1, better than 1 dm2; even better 10 dm2, even 50 dm 'or more. According to this aspect of the invention, it is possible to create asperities having the appearance of "craters" on at least a portion of an apparent face of the concrete structure. Craters have, for example at least some, a diameter greater than or equal to 1 mm, or even 2 mm, or even 5 mm or 10 mm and a depth greater than or equal to 0.5 mm, or even 2 mm or 5 rare or 10 mm , see more. The number of craters having such dimensions is, for example, greater than or equal to 1 per dm2, better still greater than or equal to 2.5, or even 10, 20 or 50. The solid part can only partially cover the upper surface of the concrete; which can make it possible to create a contrast effect between two regions of the upper surface of the concrete, one smooth and the other with the asperities thus created. Advantageously, the solid part is in direct contact with the concrete, so that the evacuation of the air bubbles is as upset as possible. The vibration of the mold can for example be done through a vibrating support on which the mold is placed. The craters obtained may optionally be filled, at least partially, with the aid of a resin, for example a colorless or colored transparent resin, or by a concrete of another color for example, in order to provide an additional aesthetic effect, It is also possible to apply a protective product, for example a varnish or a paint, on the surface of the concrete, this protective product can marry the relief craters without filling them. The method may also include the step of injecting air into the concrete, before and / or after casting of the concrete, to enhance the formation of air bubbles and increase the likelihood of crater formation under the solid part and / or increase the density or size of the craters. The injected air is, for example, compressed air. The injection of air is preferably carried out before fixing the solid part which hinders the evacuation of the bubbles and before the vibration is started at all. Alternatively, the method may further include the step of placing a material in contact with the concrete prior to setting. This material may be placed, in an exemplary implementation of the invention, randomly on one or more areas of the bottom of the mold, or the solid part, or on the surface of the concrete before the introduction of the solid part. . It is for example a mineral or vegetable material, for example salt, sugar, algae, sand, among others, in order to obtain particular effects related to the nature of the material used, or to an adhesive, a fabric or a sheet of paper, among others. At least a portion of the surface of the crater-forming structure is intended to be exposed to the view, at least partially, during the use of the structure, after demolding and possibly assembly with other elements.

Optical fibers can be deposited in the mold before pouring the concrete. The manufacturing process can be used for the manufacture of concrete structures, partitions, buildings, including homes or offices, furniture, for example a tabletop or countertop.

The structure can be in particular a piece of furniture, including a table or a chair, a floor covering, a building element. FIGS. 1A to 1C illustrate the steps of an exemplary method according to this first aspect of the invention, allowing the creation of asperities in the form of "craters" on at least part of the surface. of a concrete structure.

In order to obtain the finest possible surface condition, concrete of the BFUHP (Ultra High Performance Fiber Concrete) type having a particle size preferably of less than 500 microns can be used. The various components of the concrete are firstly mixed in a first step, namely for example: "prernix" (mixture of cement, sand, silica fume and wired, that is to say, crushed limestone), water, fluidizer, accelerator, fibers and possibly pigments. It is possible to inject air into this mixture, for example with an air gun, to enhance the formation of air bubbles in the concrete. As a result, the probability of forming the asperities is increased. The concrete 20 in the fluid state is then cast, as illustrated in FIG. 1A, in a mold 21 (also called formwork), this mold 21 being able to be of any shape and comprising for example a frame 22 and a bottom 23, the filling is preferably performed up to the edge of the frame 22. Then, as shown in Figure 1B, a plate 24, for example a wooden board, on which was optionally sprayed a release agent or oil, is affixed to the upper surface of the concrete 20 where it is desired to reveal asperities. This plate 24 is preferably fixed to the frame 22 so that the concrete 20 is in perfect contact with the plate 24. For example, the plate 24 can be fastened with nails 25 to the frame 22, as illustrated in FIG. 1C. .

The assembly consisting of the mold 21, the concrete 20 and the plate 24 is then vibrated on a vibrating table 26 for a period of between for example 1 and 15 minutes. As a result, the air contained in the concrete 20 rises to its surface. When the de-oiling is finished, the assembly formed by the mold 21, the concrete 20 and the plate 24 is allowed to rest for the time necessary for setting the concrete, then the plate 24 is removed. Once demolded, it is then possible to refine the visual aspect of the concrete structure thus obtained. A first alternative embodiment of the method consists in depositing a selected material on a surface of the mold 21 before pouring the concrete 20, on the plate 24 or on the concrete before placing the plate 24, this material being able for example to be salt to create crystals, sugar that can crystallize, seaweed that can expand on contact with fresh concrete to generate marine odors or silt, sand, adhesive, fabric or leaf, to obtain a surface appearance specific to this material.

The plate 24 may be rigid or flexible, and may possibly not be reported on the mold but be present from the start on it. The plate 24 may be flat or not, depending on the form to give to the structure.

After demolding, the surface covered by the plate can take tome vertical orientation, horizontal or other, depending on the use that is made of the concrete structure. The structure of the concrete may be devoid of reinforcement such as irons.

Embossing method According to another of its aspects, regardless of the formation of asperities on the concrete, or additionally, the invention relates to a method of decorating a concrete structure, comprising the following steps: . coating a permeable substrate with a photosensitive emulsion, I 0 b. exposing the substrate thus coated with the emulsion to a radiation source so as to form an image on the substrate, c. developing the emulsion so as to have a local permeability of the substrate related to the image, d. affix the substrate after developing the emulsion on at least one face of the concrete structure, e, depositing on the concrete structure, through the substrate, a mixture comprising a varnish and / or a coloring agent, including luminescent or phosphorescent so as to reveal an image-related pattern on the concrete structure, 20 f. allow to dry, for example from a few hours to several days, or, a. coat the concrete structure with a photosensitive emulsion, b. exposing the structure thus coated with the emulsion to a source of light radiation so as to form an image on the structure, c. developing the emulsion so as to have local permeability of the image-related structure, and d. optionally, depositing on the concrete structure, a mixture comprising a varnish and / or a coloring agent, including luminescent or phosphorescent, so as to reveal a picture-wise pattern on the concrete structure, e. allow to dry, for example from a few hours to several days, f. possibly place the concrete structure on which the mixture has been deposited in hydrochloric acid. The substrate may for example comprise a framework fabric, which is coated with photosensitive emulsion, during the first step a. The face of the structure on which the substrate is affixed may for example correspond to the "smooth side" of a concrete slab, that is to say the side located against a wall of the mold during setting concrete. Before affixing the substrate to the concrete structure, it is for example possible to treat the face on which the pattern will appear by proceeding to its degreasing, for example with a solvent such as acetone. FIG. 2 illustrates steps of an exemplary method according to the invention, enabling the creation of a pattern on the surface of a concrete structure, according to a principle similar to that of screen printing.

The concrete used is for example a type of concrete BFUP (Ultra High Performance Fiber Concrete) having a particle size preferably less than 500 microns. Firstly, in a first step I degreasing a face of the concrete structure 1 on which the printing will be performed, for example using a cloth 3 soaked in a solvent such as acetone, during a second step II, a screenprint 4 is prepared on which a frame 5 is printed. The preparation of the artwork 4 consists of coating the canvas on the frame 5 with photosensitive emulsion while working in a space of reduced brightness, for example in a dark room. Then, the photosensitive emulsion is allowed to dry. At the end of this period, the desired pattern is insolated on the artwork and once the sunstroke is over, the artwork is rinsed with water and allowed to dry. Then, a mixture M intended to be applied to the artwork 4 in order to reveal the desired pattern on the chosen surface of the concrete structure is prepared. This mixture M may for example comprise an ink, or pigments mixed with a binder, for example a glossy varnish. Luminescent photo pigments may optionally be incetpored in the mixture M.

In this case, the silk screen 4 is preferably chosen so as to have a large mesh and these pigments are present in a mass content preferably greater than or equal to 20%, more preferably 30%, in the mixture M. The presence of the varnish in the mixture M may be useful if it is desired subsequently to deposit an acid on the concrete structure, in order to burn the surface thereof and remove the skin of the concrete on the regions not covered by the mixture M, that is to say, the outer layer of the structure having a very thin structure, a few microns thick, In step III, the artwork is affixed. 4 on the concrete structure 1 possibly placing shims 6 around the concrete structure 1, on which the frame of the artwork 4 is placed, so as not to perforate the fabric 5 with the corners of the concrete plate 1. The mixture M is then deposited by spreading through the fabric 5, for example using a squeegee, making one or more passes and allowed to dry. The fabric S has a permeability function of the image, so that the mixture IVI is deposited selectively / Ties on the concrete structure and forms the image that one seeks to reproduce. In the last step IV, the concrete slab 7 is allowed to dry for a sufficient period. The concrete structure can also be engraved by placing it on the serigraphed side with the mixture in hydrochloric acid. Multicolored structure According to another of its aspects, independently of the above aspects, or additionally to them, the invention also relates to a method of manufacturing a concrete structure, comprising the following steps of casting a thin thickness, between 0.5 mm and 5 mm, concrete A in the bottom of a mold and then pour over a concrete B, these concrete A and B being of different colors, one of the concrete A and B being intended forming the outer skin of the concrete structure and having a water content sufficiently low to crack on drying with preferably no fibers or a low fiber content, and to reveal, in the bottom of the cracks, other concrete, thus creating a contrast effect between the colors of the concrete A and B. The invention has for object such a structure, comprising a skin of a concrete having a first color, covering a core of a concrete of a second color, the skin being cracked and the color of the heart appearing in the bottom of the cracks. Figure 3 very schematically shows such a structure. In this example, the concrete A forms the skin of the structure, cracked and traversed by cracks 26. The concrete B which forms the heart is exposed to the view through these cracks.

The thickness of the skin is for example between 0.5 mm and 5 mm. The cracks 26 may optionally be filled with a resin, in particular a transparent resin. To achieve the concrete structure, can be poured as shown in Figure 4 a light layer of concrete A in the bottom 23 of a mold 22, then flows immediately after and gently concrete B on the concrete layer A. The concretes A and B are obtained for example as follows: A: BHUP concrete without fibers and with less water than the conventional dosage provides. B: BHUP concrete containing the maximum of similar elements with A to facilitate the cohesion, A BFUP concrete used for B will make it possible to ensure a better solidity for the set A + B. In a variant, a large layer of concrete B is poured into the bottom 23 of a mold 22 to form the core of the structure, then a thin layer of concrete A is poured onto the concrete layer B to form the skin. .

After drying and demolding, it is possible to sand the concrete structure obtained. The first way advantageously allows to exploit the side of the concrete plate in contact with the bottom 23 of the mold 22, that is to say the side that can be smoother, while the second variant allows to exploit the side free of the concrete slab, that is to say the side opposite the bottom 23 of the mold 22, likely to have a more random appearance, the concrete structure can be used as a structural and / or decorative in a building or as a mibble, for example table, chair, counter, siding, paving, This process can be combined with that of craters to obtain craters of different colors. Thus, after casting concretes A and B in the mold, the evacuation of the air bubbles can be thwarted by the presence of a solid part in the upper part of the mold, the concrete adjacent to this solid part having a sufficiently thick weak so that the craters that form during the setting of the concrete reveal the underlying concrete, of different appearance. Modular elements According to another of its aspects, the invention also relates to a concrete module of BHT (High Performance Concrete) or higher quality to achieve a modular structure, this module comprising perforated cells made by molding the concrete of the module, the tin cells joined to each other, these cells being at least two different sizes and being arranged in such a way as to allow the modules to be assembled to be brought together sufficiently to obtain an impression of visual continuity between the modules thus assembled. example include more than three, better four, even better five different cell sizes. The openings of the cells can be circular, with for example large circles which have a diameter at least double, better at least triple, that of small circles.

The modules can be assembled together in different ways, to create structures of varying sizes and shapes, able to adapt to the environment in which they are located. The various structures can be affixed against the surface of one or more building walls, so as to easily adapt to the spatial configuration of the walls, especially in the corners or at the intersections between two walls or act as a trellis, separating interior partitions between two spaces.

The openings of the cells may have different shapes, especially other than circular, for example polygonal, in particular rectangular, square or triangular, oval, star, among others. The openings of the cells can be filled at least partially with filling elements in order to create new effects or to reinforce the structure thus obtained. These elements completely fill for example at least one aperture of a cell of the structure, which may or may not let light, These elements may be made for example from a colored resin, transparent or translucent. The proportion between the cells in the openings is filled and those left empty can for example be less than 1 open filled for 4 empty openings. The filling elements intended to fill the cells can still be opaque or integrate light systems or loudspeakers. The height of a module is for example between 0.5 and 3 ru, better 0.8 and 1.2 m. The thickness of a basic module is for example between 8 and 100 mm, preferably between 12 and 45 mm. Figures 5 and 6 show, in front view, two examples of modules 60 and 70 having hollow cells 80 of circular shape, with a variable diameter. FIG. 7 represents, in perspective, the module 70 of FIG. 6. The construction material used to produce the modules is, for example, concrete of the BFUP type. The modules 60 and 70 have for example a thickness of 35 mm and a height of 1 m. FIG. 8 represents, in front view, the module 70 of FIG. 6, in which replacement elements 81 made of green translucent resin have been introduced into some of the units 80 of the same diameter. FIG. 9 illustrates various possibilities of assembling the modules 60 and 70 of FIGS. 5 and 6. The assembly may depend on the spatial configuration of the place where the modules are placed, or result from a personal choice.

In particular, for a given space where one has a choice between two models of different modules, and three different locations to place. these modules, it is possible to obtain eight different configurations in the positioning of the modules.

FIG. 9 illustrates three of these eight possible configurations for the modules 60 and 70. The modules are arranged so as to have a certain visual continuity when brought together. The contact areas between the two adjacent modules can be defined by cells. The perimeter of a module can be defined for example by at least five different cells. Of course, the invention is not limited to the embodiments which have just been described above.

In all the alternative embodiments illustrated in this application, the concrete structure may incorporate at least one electronic sensor, in particular a proximity sensor, for example of the capacitive type; and / or at least one speaker. The phrase "with one" should be understood as synonymous with "having at least tin" .20

Claims (8)

REVENDICATIONSI. Method of decorating a concrete structure, comprising the following steps: a. coating a permeable substrate with a photosensitive emulsion, S b. exposing the substrate thus coated with the emulsion to a source of light radiation so as to form an image on the substrate, c. developing the emulsion so as to have a local permeability of the substrate related to the image, d. affixing the substrate after developing the emulsion on at least one face of the concrete structure, depositing on the concrete structure, through the substrate, a mixture comprising a varnish and / or a coloring agent, luminescent, so as to show an image-related pattern on the concrete structure, let it dry, for example from a few hours to several days, or, a) coat the concrete structure with a photosensitive emulsion, exposing the structure thus coated with the emulsion to a source of light radiation so as to form an image on the structure, developing the emulsion so as to have a local permeability of the irna-related structure. optionally, depositing on the concrete structure a mixture comprising a lacquer and / or a coloring agent, including luminescent or phosphorescent, so as to reveal an image-related pattern on the concrete structure , e. allow to dry, for example from a few hours to several days, if necessary, place the concrete structure on which the mixture has been deposited in hydrochloric acid. 2. Method according to claim 1, the substrate comprising a frame canvas. 3. The method of claim 1 or 2, wherein the face of the structure to which the substrate is affixed corresponds to the smooth side of a concrete slab. 4. Method according to any one of the preceding claims, wherein before affixing the substrate on the concrete structure, the face on which the pattern will be displayed is subjected to degreasing. 5. Method according to any one of the preceding claims, the concrete used being a type of concrete BFUP. 6. Method according to any one of the preceding claims, the mixture comprising pigments present in a mass content greater than or equal to 20%, more preferably 30%. 7. Method according to any one of the preceding claims, the mixture comprising a varnish. 8. A process according to any one of the preceding claims comprising step f) of exposure to hydrochloric acid.