• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Fast setting plaster material lightened with polymer pellets. The present invention consists of a lightened plaster material for the preparation of prefabricated panels and plates for use in construction, which facilitates its handling while reducing setting times. This material is composed of any type of plaster as the main matrix, with the addition of polymer pellets to reduce weight and with the addition of sodium polyacrylate to reduce the setting times of the material. The sector of application of this invention is that of the building. The invention also relates to methods of manufacturing these casts and their use as construction materials. The result is the obtaining of a new lightened plaster material for the production of precast, especially for false ceilings, with a mechanical behavior similar to the existing precast, but with a reduction of between 15 and 20% of its weight, a setting much faster and better thermal insulation. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2781675A1
    申请号:ES202030595
    申请日:2020-06-19
    公开日:2020-09-04
    发明作者:Vega Daniel Ferrandez;Fernandez Carlos Moron;Sanchez Evangelina Atanes;Martinez Pablo Saiz
    申请人:Universidad Politecnica de Madrid;Universidad Rey Juan Carlos;
    IPC主号:
    专利说明:

    [0004] TECHNICAL SECTOR
    [0006] The present invention, as indicated in the title of this specification, is a mixture of plaster with polymer pellets and sodium polyacrylate. This material allows to considerably lighten the weight of traditional plaster precasts and to reduce the setting times of the binder material, thus reducing manufacturing times. The sector of application of this invention is that of Construction, Civil Engineering, Building, Material Technology, Industrial Technology and Production.
    [0008] BACKGROUND OF THE INVENTION
    [0010] Plaster, as a mineral, is a rock with a sedimentary origin of chemical precipitation known as Aljez (or gypsum stone), consisting mainly of calcium sulfate dihydrate, very abundant in nature. On the other hand, plaster as an industrial product is a powdery material widely used in construction, which is obtained by cooking from aljez, and which is capable of setting in the air when it comes into contact with water.
    [0012] Plaster has traditionally been used as a material for fitting out interior spaces. To its low initial cost and its relative abundance, its good physical properties are added, such as: high adherence to ceramic cladding, fast setting, good thermal insulation properties, fireproof properties, good behavior as a hygrothermal regulator of premises when used as an interior coating and average mechanical strengths higher than those of industrial product plaster, although without having structural use.
    [0014] Today its abundance, good properties and low initial cost are influenced by the implementation of this material, which requires specialized labor and moderate execution times. The solution to this problem is to industrialize the process through the production of precast plaster that facilitate their implementation and obtain benefits similar to those of traditionally used partitions and coatings.
    [0016] In this way, the present invention falls within the line of research that aims to improve the preparation of prefabricated construction. The prefabricated pieces of plaster have variable dimensions, generally square or rectangular, with the exception of special decorative moldings, and are made up of a mixture of water and plaster. These panels have traditionally not had a good acceptance due to their low deformation capacity, differential behavior of the joints and high weight that hinders their handling in the installation. Although it is true, that more and more reinforcing fibers and fabrics have been incorporated in their manufacture, as well as other additives and aggregates that have made it possible to improve their properties and increase the size of the panels. In general, after the placement of these prefabricated pieces, it is intended to give the partition or cladding an appearance of a continuous surface.
    [0018] This study is part of the incorporation of mass additions to improve the technical properties of precast. In this regard, in recent decades the use of polymeric additions and additives has become widespread, allowing improvements in the physical and mechanical properties of materials made with a plaster or plaster base to be achieved.
    [0020] Patent ES 2 292 309 entitled "Lightened plaster or plaster construction material and its use in plates and panels", refers to a material with which it is possible to lighten a plaster or plaster for the execution of prefabricated items. In this invention , the gypsum or plaster as the main matrix is made with binary additions of expanded polystyrene and polypropylene fibers that reduce the weight and preserve the average values of porosity, mechanical resistance and setting times. In this invention the additions are visible after breakage and they do not reduce setting times or modify the matrix component, without being able to resemble the invention presented.
    [0022] Patent ES 2699 227 T3 entitled "Light weight and density fire resistant gypsum board", describes a new type of prefabricated gypsum panel with reduced weight and high thermal insulation capacity, composed of gypsum, pregelatinized starch, phosphates, dispersant compounds and synthetic fibers Although it is true that a lightweight material is achieved, with a plate thickness of less than two centimeters and high thermal insulation, the acceleration of setting is not mentioned. In said invention, neither the use of polymers in pellets, therefore, is not similar to the material described in this document.
    [0024] Patent ES 2665 368 T3 entitled "New gypsum board and systems comprising it", consists of a gypsum board that comprises at least one facing mat with at least two layers composed of cellulose fibers, inorganic fibers and organic fibers In this invention, it is not possible to reduce the setting times, nor are polymeric compounds introduced to reduce the weight of the plates. Although it is true that the mechanical properties of plaster precasts are improved, the invention is not related to the material. presented in this document.
    [0026] Patent US 10259196 B2 entitled "Lightweight gypsum wallboard" describes a new type of lightweight construction material composed of a core of foamed gypsum reinforced with pregelatinized starch. In the patent object of this invention the porosity of the material is also increased with the addition of Sodium Polyacrylate, although the final composition of the sample is different from that of the referenced invention.
    [0028] Patent ES 2 381 726 entitled "Procedure for obtaining lightened plaster with foamed polyurethane residues", is based on the incorporation of industrial residues of rigid polyurethane foams, mixed with the plaster after grinding and crushing into different granulometries during kneading process.Despite using a polymeric material and lightening the weight of the resulting plaster material, at no time is the incorporation of polymers in pellets or the reduction of setting times mentioned, then it does not resemble the composition described in This document.
    [0030] Patent ES 2277776 entitled "Plaster or plaster mixtures lightened with expanded plastic granules", describes the preparation of two ideal mixtures of plaster or plaster that, when kneaded with water and added with spherical-type granules of expanded plastic of about 6 mm in diameter , give construction products with reduced weight compared to the traditional plaster or plaster precasts.This invention is related to the work presented in that plastic compounds are added in their manufacture, although it is true that in the invention presented in this document uses the addition of polymers in pellets and setting times are reduced with the incorporation of sodium polyacrylate, therefore not being comparable.
    [0031] Patent JP2019006675A entitled "Lightweight, reduced-density, fire-rated gypsum panels" manages to improve the properties of gypsum and plaster precasts with the addition of vermiculite in the matrix of the processed material. For the case of the present invention, the added material It is LDPE, in addition to modifying the hardening times by adding Sodium Polyacrylate.
    [0033] Patent ES 2 179 612 B2 entitled "Gypsum lightened with cork and its application in construction panels", presents a material based on plaster or plaster lightened with natural cork (pruning waste in the form of granules) or artificial cork. (Expanded polystyrene beads of medium granulometry), suitable to be used in the form of panels in prefabricated construction products. In said invention, reference is made to the addition of low-density particles to reduce the weight of precasts, however, it does not The addition of polymers in pellets for this purpose is mentioned, nor are the setting times of the processed plaster material changed, not being directly related to the invention described in this document.
    [0035] Patent ES 2 722 598 entitled "Lightened plaster material with polymers for use in prefabricated plates and panels", consists of a mixture of plaster with a solution of boric acid, polyvinyl acetate and bicarbonate that allows to considerably lighten the weight of the Traditional plaster precasts The present invention differs from the previous one in that the setting times are reduced, the compounds added and the kneading process is different and polymers are incorporated into pellets for weight reduction.
    [0037] Patent ES 2660 006 T3 entitled "Accelerators for plaster compositions with improved resistance to permanent deformation", refers to a material with application to construction made with plaster, water, a polyphosphoric compound and a borate compound that can be introduced in the aqueous phase during kneading and behave as a material that accelerates the setting, improving resistance to permanent deformation. The material object of the present invention not only reduces the setting times of plaster or plaster without excessively reducing its mechanical properties, but also also thanks to the addition of the polymers in pellets it allows to lighten the weight, therefore, it is not directly related to said invention.
    [0039] Consequently, no material currently exists that meets the conditions of the present invention or is included in its attributions.
    [0040] Therefore, the object of the present invention, unlike the materials and their production methods described in the state of the art, is to present a new lightened plaster or plaster for the manufacture of prefabricated plates and panels with lower density and less time. setting.
    [0042] DESCRIPTION OF THE INVENTION
    [0044] Thus, it is claimed, as the first object of the invention, a quick-setting and lightened plaster or plaster material for the production of prefabricated plates and panels with preferential application in the construction sector. This material is made up of any type of plaster or plaster from among those on the market, the use of plaster type E-35 or similar being preferable, with a water / binder mass ratio of 0.7 to 0.8.
    [0046] In this document, a plaster object of the invention is defined, which hereinafter is also called fast-setting and lightened plaster, which has a series of technical characteristics that are defined below, and where said plaster material presents a decrease in the density of approximately 15-20% with respect to the values obtained for plaster mixtures with a water / binder ratio 0.7 - 0.8 without additives.
    [0048] The lightened and fast-setting plaster object of the invention is characterized in that it comprises a water / plaster ratio of 0.7 to 0.8; and additionally comprises the following components related to the plaster mass:
    [0050] • 10 - 15% low-density polyethylene in pellets of between 3mm and 6mm in average diameter;
    [0051] • 3-4.5% sodium polyacrylate powder;
    [0052] where the sum of all components is less than or equal to 100%.
    [0054] In a preferred embodiment of the present invention, the pelletized low-density polyethylene may have a mean diameter of 4mm.
    [0056] The lightened and fast-setting plaster object of the invention may comprise a minimum quantity of 1 kg of plaster for the execution of the mixtures and application of the percentages and water / plaster ratios above. indicated, in order to be able to carry out the kneading with sufficient slack and facilitate the homogeneous mixing of the components.
    [0058] Thus, as far as the present invention is concerned, the lightened and fast-setting plaster is made up of any type of plaster or plaster, the use of type E-35 plaster or the like being preferable. The E-35 plaster is made up of semi-hydrated calcium sulfate ( SO4C to 1AH2O ), which in turn can include setting regulating additives and has a minimum flexural strength of 3.5 N / mm2. It is frequently used in the execution of prefabricated partitions and false ceilings, as well as in the implementation of these. In the present invention, the E-35 type plaster or the like has a water / powder or binder plaster ratio of 0.7 to 0.8. It should be noted that mixing water is called the amount of water that is added to the mixture to obtain the plaster object of the invention, which is calculated based on the water / plaster ratio by weight.
    [0060] Likewise, the low-density polyethylene (LDPE) in pellets that forms part of the present invention is a polymeric material whose macromolecules are constituted by the polymerization of the ethylene monomer, and whose molecular formula can be represented by - (C2H4) n - and that allows considerably lighten the weight of the material. These are round shaped particles with an approximate diameter of 4 mm, and which, for the specific case of this invention, can preferably come from recycling processes of other polyethylene compounds. Interesting aspects of this material are its low cost, low toxicity and high durability, since it does not react chemically with the plaster mixture during the kneading process.
    [0062] On the other hand, the lightened and fast-setting plaster object of the present invention also includes as an ingredient in its composition Sodium Polyacrylate powder, whose simplified chemical formulation is (C3H3NaO2) and which is responsible for accelerating the setting process and improving the thermal insulation once dried. It is a white, odorless powder that can absorb up to 100 times its weight in water.
    [0064] The lightened and fast-setting plaster described in this invention has a series of technical characteristics that differentiate it from other plasters currently on the market. It should be noted that said plaster described in this document has a maximum apparent density in the hardened state of 940 kg / m3 and its minimum apparent density is 830 kg / m3, measured at ambient laboratory temperature of 23 ° C. On the other hand, the lightened and setting plaster Rapid object of the invention has a Shore C hardness between 79 - 89 Shore C units. Likewise, said lightweight and fast setting plaster has a mechanical resistance to flexural traction that is between 2.65 - 3.86 MPa, its mechanical resistance in compression it is between 8.65 - 11.43 MPa, and its thermal conductivity is between 0.16 - 0.22 W / mK. It should be noted that the parameters of the present lightweight and fast-setting plaster object of the invention described in this document are measured in accordance with the UNE-EN 13279-2: 2014 standard.
    [0066] With respect to the present invention, it should be mentioned that the lightened and fast-setting plaster object of the invention may also comprise the addition of fibers of both natural origin, among which fibers of vegetable origin such as: coconut, straw or wood, as well as fibers of synthetic origin, such as fiberglass, polypropylene or basalt among others. With the addition of these reinforcing materials, it is possible to avoid brittle breakage of the plaster matrix that occurs when it is subjected to flexural stresses. These fibers, homogeneously distributed throughout the material, avoid initial separation under the action of loads through an interconnection between the breaking faces.
    [0068] In addition, it is also the object of the present invention, the method for obtaining the lightened and fast-setting plaster that is described in this document, and that is characterized in that it comprises the following steps:
    [0070] a) mixing the powdered plaster with the pelletized low-density polyethylene and the powdered sodium polyacrylate;
    [0071] b) Add the previous mixture by sprinkling the content in a container with water and start the kneading process.
    [0072] It should be noted that the method object of the invention is carried out in accordance with the UNE-EN 13279-2: 2014 standard.
    [0074] In a preferred embodiment of the method object of the invention, the kneading process in turn comprises the following described steps:
    [0076] b.1) the mixture is stirred for a time between 15 to 30 seconds describing movements in the shape of eight;
    [0077] b.2) the mixture is allowed to rest for at least 30 seconds, and not more than one minute;
    [0078] b.3) the mixture is stirred for a time between 15 to 30 seconds describing movements in the shape of eight, until a homogeneous paste is obtained and before it begins to harden.
    [0079] The method object of the invention can also comprise a stage prior to step b), in which the fibers that can be artificial or natural are dispersed in the water.
    [0081] As a result of the mixing of the described components, the definitive mechanical properties are given to the composite material, as a result of faster hardening and greater weight loss, allowing in turn the joint work of all the constituents in the plaster matrix. Thus, when all the materials are mixed together, combined effects appear that enhance the individual ones. These synergistic effects are responsible for producing a decrease in the density of the material of the invention compared to traditional plaster matrices, without reducing its mechanical behavior or surface hardness. The setting times, on the other hand, are reduced compared to traditional plasters without additives.
    [0083] In this way, the main advantages that are extracted from the composition of the new material object of this invention are a significant decrease in the density of the plaster produced, and consequently the own weight of the elements and construction systems manufactured with it, as well as a reduction in the setting times of the material.
    [0085] • The decrease in final density is approximately 15-20% with respect to the values obtained for plasters with mass dosage 0.7-0.8 without the mentioned additives.
    [0087] • The hardening after the start of setting of the plaster material with additives occurs in an average time of 5 - 7 minutes, compared to 13 - 15 minutes obtained for plasters without additives with mass dosages 0.7 - 0.8 respectively.
    [0089] • The resistance to bending and compression of the lightweight and fast-setting plaster of the present invention is similar with respect to the reference plasters, obtaining in all the tested specimens a resistance greater than 2.5 MPa to bending and 8.5 MPa compression.
    [0090] • The thermal conductivity of the material object of the present invention is improved compared to the reference specimens due to the higher porosity obtained after drying and the greater lightness of the material. Said thermal conductivity values range between 0.16 and 0.22 W / mK for the lightweight and fast setting plaster of the present invention.
    [0092] Finally, the use of the plaster material claimed here for the manufacture of prefabricated plates and panels with immediate application in the construction sector is also an object of the invention.
    [0094] The most immediate industrial application for the lightweight and fast-setting plaster material object of the present invention is the execution of prefabricated panels for modular construction. These plates and panels can be used in the execution of interior divisions of buildings, facade cladding, ceilings and false ceilings.
    [0096] Especially useful is its application to the execution of false ceilings by means of lightened plates. These false ceilings can be continuous non-removable, where practical dimensions of 1000x600 mm2 to 600x600 mm2 are recommended, or continuous removable, whose practical dimensions would be 1200x600 mm2 to 600x600 mm2. Although the material presented manages to lighten the panel's own weight, it is not advisable to exceed these dimensions to facilitate the work of the operator and avoid possible flexural breakage due to an excessive deflection in the center of the suspended precast.
    [0098] Furthermore, it is possible to use counter-molds on the back of the plate during the setting process of the plaster material object of the invention, thus reducing the thickness in the central area of the plate and leaving it with ribs and cells. In the case of rectangular pieces, it is advisable to reinforce them by using synthetic fibers (eg: fiberglass, basalt or polypropylene) or vegetable fibers (eg: wood or straw fiber) to increase their cohesion and rigidity , especially improving its flexural strength.
    [0100] In turn, it is possible to incorporate metallic aluminum devices on the back of the false ceiling plate, which allow it to be placed on the anchoring elements. These elements can be incorporated during the setting process of the plaster material described for its elaboration.
    [0101] BRIEF DESCRIPTION OF THE FIGURES
    [0103] At the end of the present specification, some of the possible applications of this material for the manufacture of plaster plates for registrable ceilings with metal profiles have been schematically represented to complete the description of the invention, for illustrative and non-limiting purposes:
    [0105] Figure 1.- Cross-sectional view of a plasterboard with visible profiles.
    [0107] Figure 2.- Cross-sectional view for a plasterboard with semi-visible profiles.
    [0109] Figure 3.- Cross-sectional view for a plasterboard with hidden profiles.
    [0111] Figure 4.- Cross-sectional view of a constructive detail of fastening the plates with profiles anchored to the upper floor and meeting with interior partitions.
    [0113] In the Figures, the reference (1) represents the surface finish of the plates and the reference (2) represents the plaster matrix with addition of polymers in pellets and sodium polyacrylate. The letters indicate: (A) width, (L) length, (E) total thickness and (e) spatial thickness.
    [0115] PREFERRED EMBODIMENT OF THE INVENTION
    [0116] In order to contribute to a better understanding of the invention, and in accordance with a practical embodiment thereof, a preferred embodiment of the present invention is attached as an integral part of this description.
    [0118] The material described in this document is specially designed for the preparation of plaster prefabricated with application to false ceilings and wall cladding. The characteristics of the plates or panels will depend on the manufacturer in question, however, there is a preferred production process in terms of its way of manufacturing. To do this, first, the amounts are set for two possible dosages with two water / plaster ratios, which have been tested to carry out this invention:
    [0119] Case Plaster (g) Water (g) Polyethylene pellets (%) Sodium Polyacrylate (%)
    [0120] 1 1000 700 10 3
    [0121] 2 1000 800 10 3
    [0122] 3 1000 700 15 4.5
    [0123] 4 1000 800 15 4.5
    [0125] Table 1. Amounts used referred to the plaster mass.
    [0127] In any case, it should be considered that an excess of additive, especially Sodium Polyacrylate, can be detrimental to the mechanical characteristics of the finished product or its setting times, but an insufficient amount of additive will not show any damage.
    [0129] During mixing, the recommendations of the EN 13279-2: 2014 standard must be followed with some peculiarity. The polyethylene pellets and sodium polyacrylate must be mixed homogeneously with the dry plaster powder. Subsequently, the mixture is sprinkled for 30 seconds on a container with water and the kneading process begins following the recommendations of the aforementioned standard. Low energetic mechanical kneading performed with machinery is recommended, since in general better results are achieved and the process can be automated. It should also be noted that the polyethylene pellets used may be of recycled origin.
    [0131] In the case of adding fibers to the mix in order to improve its resistance to flexural traction, they must be distributed in the mixing water before sprinkling the plaster. This process of fraying the fibers can be done manually or mechanically, based on the material requirements that you want to obtain. The pouring into the mold must be carried out constantly and progressively. It should be noted that it is useful to grease the interior walls with oil to facilitate subsequent stripping. Care must be taken when leveling the surface, which will allow a constant thickness to be achieved throughout the plate and the rapid setting of the mixture can make the operation difficult.
    [0133] Once the material has been kneaded and hardened after seven days in accordance with the UNE-EN 13279-2: 2014 standard, its mechanical properties can be tested. It should be noted that the samples made with the lightened and fast-setting plaster of the present invention improve their thermal resistance after drying in an oven for 24 hours at a temperature of 60 ° C. This is due to During kneading and subsequent setting, the sodium polyacrylate absorbs the water from the medium. During drying, the sodium polyacrylate molecules embedded in the plaster matrix dehydrate, and the loss of water causes their size to decrease, and an internal network of pores is generated. Several tests have been carried out in order to characterize the material of the invention (Table 2). In general terms, a decrease in weight can be observed, which is reflected in a decrease in the density of the material, without this abruptly affecting the mechanical resistance to flexural traction and compression. In turn, the material presents greater porosity and better thermal behavior when transmitting heat through it.
    [0135] Property Example 1 Example 2 Example 3 Example 4
    [0136] Water / plaster ratio 0.7 0.8 0.7 0.8
    [0137] Apparent density (kg / m) 940 905 880 830
    [0138] Setting principle (min) 6 7 5 6
    [0139] Hardness (Shore C Units) 89 82 83 79
    [0140] Flexural Tensile Strength (MPa) 3.86 3.20 3.36 2.65
    [0141] Compressive Strength (MPa) 11.43 9.28 9.55 8.65
    [0142] Adhesion (Kg / cm) 0.52 0.44 0.47 0.40
    [0143] Thermal conductivity (W / mK) 0.22 0.19 0.18 0.16
    [0144] Table 2. Properties of hardened materials tested in accordance with the UNE-EN 13279-2: 2014 standard and referring to the dosages used in Table 1
    [0145] For the use of the lightened and fast-setting material described in the present invention in prefabricated plates or panels, it should be noted that these construction elements admit any type of support due to their high versatility. Although it is true that the simplest system consists of mechanical fixing, because the plates or panels can be machined and allow surface preparation and painting. The fixing systems are industrialized and easy to find.
    [0147] It thus consists of a clean and fast assembly system, which for a better finish must acquire a continuous surface character once implanted on site.
    [0148] In this way, it is convenient to carry out the repairs, sealing of parts and possible joints with the same material and dosage used for the manufacture of the plates and panels, thus avoiding possible imperfections and defects.
    [0150] On those occasions when the material must be made "in situ" it is convenient to control the drying temperature, since in very hot areas the setting process can be accelerated rapidly, preventing the workability of the mixture of the material described.
    权利要求:
    Claims (11)
    [1]
    1. Lightweight and fast-setting plaster material for construction characterized in that it comprises a water / plaster ratio by mass of 0.7 to 0.8; and additionally comprises the following components related to the plaster mass:
    • 10 - 15% low-density polyethylene in pellets with an average diameter of 3 to 6 mm;
    • 3-4.5% sodium polyacrylate powder;
    where the sum of all components is less than or equal to 100%.
    [2]
    2. Lightweight and fast setting plaster material for construction according to claim 1, wherein the minimum amount of plaster by weight is 1 kg.
    [3]
    3. Lightweight and fast-setting plaster material for construction according to any one of the preceding claims, wherein the maximum apparent density in the hardened state is 940 kg / m3 and its minimum apparent density is 830 kg / m3.
    [4]
    4. Lightweight, fast-setting plaster material for construction according to any one of the preceding claims, wherein its Shore C hardness is between 79 - 89 Shore C units.
    [5]
    5. Lightweight and fast setting plaster material for construction according to any one of the preceding claims, wherein its mechanical resistance to flexural traction is between 2.65 - 3.86 MPa, and its mechanical resistance to compression is between 8.65 -11.43 MPa.
    [6]
    6. Lightweight and fast-setting plaster material for construction according to any one of the preceding claims, wherein its coefficient of thermal conductivity is between 0.16-0.22 W / mK.
    [7]
    7. Lightweight and fast-setting plaster material for construction according to any one of the preceding claims, characterized in that it comprises artificial fibers or natural fibers.
    [8]
    8. Method for obtaining the lightweight and fast-setting plaster material for construction according to any one of the preceding claims, wherein said method is characterized in that it comprises the following steps:
    a) mixing the powdered plaster with the pelletized low-density polyethylene and the powdered sodium polyacrylate;
    b) Add the previous mixture by sprinkling the content in a container with water and start the kneading process, which comprises the following steps.
    b.1) the mixture is stirred for a time between 15 to 30 seconds describing movements in the shape of eight;
    b.2) the mixture is allowed to rest for at least 30 seconds, and not more than one minute;
    b.3) the mixture is stirred for a time between 15 to 30 seconds describing movements in the shape of eight, until a homogeneous paste is obtained and before it begins to harden.
    [9]
    9. Method for obtaining the lightened and fast setting plaster material for construction according to claims 7 and 8, characterized in that it comprises an additional stage prior to stage b) where the artificial or natural fibers are added to the liquid of kneading.
    [10]
    10. Method for obtaining the lightweight and fast-setting plaster material for construction according to claim 7, where a step of drying in an oven for 24 hours at a temperature of 60 ° C is added at the age of seven days, to improve the thermal resistance of the hardened material.
    [11]
    11. Use of the construction material described, according to the preceding claims, for use in plates and panels in interior partitions, ceilings and false ceilings, all of them of any surface and thickness.
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