BR102019020915A2 - artificial rock made of vegetable polyurethane resin based on castor oil and ornamental rock residues and method of production - Google Patents

Abstract

New composite called artificial rock, with polymeric matrix and its method of obtaining, which uses polyurethane resin made from castor oil (Ricinuscommunis), of vegetal origin, as matrix and mineral filler of ornamental rock waste, especially waste of quartzite, whose main application is for civil construction such as coatings, countertops, floors, counters and artifacts, among others, resulting in an ecologically correct artificial rock, since the use of this new material makes the final product, which so far uses of polymers harmful to human health, such as synthesized chemical resins, polyester and epoxy, into an ecological and sustainable product. It is still a product with high added value.

Description

ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON CASTOR OIL AND ORNAMENTAL ROCK WASTE AND METHOD OF PROCUREMENT

[001] This report deals with the detailed description accompanied by illustrative figures of a new composite called artificial rock, polymer matrix and its method of obtaining, which uses vegetable polyurethane resin made from castor oil (Ricinuscommunis) as a matrix and mineral load of ornamental rock waste, especially quartzite waste, whose main application is for civil construction in coatings, such as countertops, floors, counters and artifacts, among others, resulting in an ecologically correct artificial rock, since the use This new material turns the final product, which so far uses polymers harmful to human health, such as synthesized chemical resins, polyester and epoxy, into an ecological, inert and sustainable product. It is still a product with high added value.

APPLICATION FIELD.

[002] The Artificial Rock of Plant Polyurethane Resin Based on Castor Oil and Ornamental Rock Residues and method of obtaining, object of the present invention, is applied in civil construction in coatings in general, such as countertops, artifacts and other elements, with the differential of being a material with the use of castor bean plant resin and ornamental rock residues in general, and in particular with the residues from the extraction and processing processes (thick and fine) of quartzite, with the differential of being an ecological material .

PURPOSE OF THE INVENTION

[003] The Artificial Rock of Plant Polyurethane Resin Based on Castor Oil and Ornamental Rock Waste and method of obtaining, object of the present invention, aims to offer the market elements for civil construction composed of an ecological artificial rock, using the vegetable polyurethane resin based on castor oil as a matrix, since Brazil is one of the main producers and exporters of castor oil in the world, aiming at the production of an artificial rock using residues from the extraction and processing of high-quality ornamental stones. quartz content, adding value in the form of a product of increasing demand and price.

PROBLEM TO BE SOLVED

[004] According to data from the Food and Agriculture Organization of the United Nations (FAO), in 2018, the main castor bean producing countries are India (74%), China (13%), Brazil (6.1 %) and Mozambique (2.5%). The biggest consumers are China, the United States, France, Germany and Japan. Castor beans are the only commercial source of ricinoleic acid.

[005] Castor oil is raw material in the preparation of polyol. Its composition contains fatty acid triglycerides with more than one double bond, the main one being ricinoleic acid (12-hydroxy-oleic acid), an unsaturated acid that belongs to the group of hydroxy acids. Polyol can be synthesized by transesterification of triglycerides, or by esterification of ricinoleic acid with glycols. The hydroxyl group present in ricinolein allows castor oil to be soluble in alcohol and in other solvents such as ether, chloroform and glacial acetic acid.

[006] Polyurethane is considered one of the most popular polymers in the world today, with a large and growing market presence in the most diversified areas. Not to mention the fantastic properties that can be obtained from this material when synthesized from vegetable oil, earning the name of biomaterial due to its biocompatible and biodegradable properties.

[007] Castor oil-based polyurethane can be classified as a liquid thermosetting resin of low to high viscosity. It is a bicomponent polymer composed of a prepolymer and a polyol extracted from the castor seed oil. As it comes from a renewable source, it is an excellent alternative for the development of bi-composites, in addition, it is a non-toxic resin for not having volatile materials and heavy metals in its composition and also for not needing solvents for application.

[008] Brazil is a major producer of ornamental stones in the world and, consequently, this production generates a high load of mineral residues coming from the deposits until the final processing. The productive chain of the ornamental stone sector is divided into extraction and processing, which in turn is subdivided into sawdust and polishing. During extraction, the block is extracted from the rock mass and later transported to sawdust, where the block is split into sheets, by means of multi-blade or multi-wire looms. A process, which is recent, performed in the processing of blocks of more fragile materials, is the enveloping, in which a fiberglass and resin blanket is used around the blocks before being sawn, to withstand the mechanical efforts. After sawing the blocks, the sheets can be sent for levigating, screening and resining or resining, ending with polishing. In the mining and processing of ornamental rocks, raw material losses are in the order of 83%. Vidal et al. (2014) estimate that in Brazil more than 22 million tons (Mt) of waste were generated in 2012, approximately 20 Mt of coarse waste generated in quarries and 2 Mt of fine waste in industries. In addition to quantity, the problem is aggravated as most waste accumulates in landfills.

[009] Artificial agglomerated rocks are today of enormous importance in civil construction. Agglomerated rocks have become the main competitor of natural rock for finishing in civil works. In 2017, Brazilian imports of artificial rock materials for ornamentation and coating totaled around US$ 44.5 million. Currently, artificial rocks, such as quartz surfaces, are manufactured using quartz, which is extracted from the environment.

[010] Quartzite is a metamorphic rock composed almost entirely of quartz grains. Its origin is related to the action of metamorphic processes developed mainly on quartz-rich sedimentary rocks. They are found in the form of raw rocks, with their massive structure and coarse grain, usually cracked and milky white in color. Its residues with a high SiO2 content can be called co-products (raw material that will be used for the manufacture of artificial rock).

[011] The quartzite whose mineralogical composition is constituted by recrystallized quartz grains, has been gaining prominence due to its chromatic aspect. It is a noble rock, tolerates large changes in temperature without undergoing changes in its structure or transmitting excessive heat, in addition to non-slip properties (except when polished) and is highly resistant to chemical products.

[012] In contrast, the production of ornamental stones, in particular ornamental quartzite, generates large amounts of waste. The deposits have low utilization, less than 15%, estimated, while in primary processing, 26% of the sawn blocks are transformed into fine waste (Vidal et al., 2014). Some types of quartzite residues have more than 90% quartz content, which makes the development of technologies for its use of great interest, which can be in noble uses, in industries that need raw material with high content. of silica, such as artificial rock.

[013] There is growing concern related to waste management. This has motivated the search for viable alternatives for the correct final destination of the waste generated and the use of materials that do not harm the environment, such as castor bean resin, which is an ecological alternative for the manufacture of new products, such as artificial rock.

[014] Brazil is a large producer of ornamental stones, however, the amount of waste generated is very large, being the main concern of the sector and the population in relation to environmental issues with regard to the generation of waste from ornamental stones.

[015] The use of this waste, which contains high silica content, for the manufacture of artificial rock is an ecological and sustainable alternative to replace the natural aggregates used in the manufacture of conventional artificial rocks and to reduce the amount of waste in the environment, such as in landfills or deposits.

[016] The artificial rock with the use of polyurethane resin made from castor oil (Ricinuscommunis), vegetable origin, as a matrix and mineral filler for the manufacture of a composite, to be used in civil construction, in the form of surface finishes as floors and countertops, this is a new material, and an ecological and sustainable product can be made available on the market. To date, it uses polymers that are harmful to human health (polyester, epoxy resins). It is still a product with high added value.

[017] Thus, the ecological artificial rock, using the vegetable polyurethane resin based on castor oil as a matrix and the residues from the extraction and processing processes of ornamental rocks, comes to collaborate to reduce or solve the problem of these residues, through the its use, the reduction in the removal of raw material from the environment for the manufacture of artificial rock and the problem of the use of toxic resins, and also the reduction in imports, since Brazil imports a large part of the artificial rock, and may increase the Brazilian production. Brazil is one of the main world exporters of castor oil and produces a large amount of waste rock. The residues are disposed in the environment and castor bean resin is an ecological resin with no toxicity. Currently, artificial rocks are manufactured with commercial resin, epoxy, polyester, which are toxic.

[018] A large amount of quartzite waste is generated (the waste used in this work has in its composition 99.3 and 99.4% of SiO2), which can be used in replacement of quartz. Currently, waste is disposed of in the environment. Thus, the production of artificial rocks from ornamental rock residues is an alternative for the disposal of this high discarded mineral load, in addition to reducing the environmental impact, generating more jobs and boosting the economy. Therefore, the present invention comes to solve or improve the environmental issue, since residues and plant resin will be used to make the artificial rock proposed here, collaborating with the mitigation of environmental impact and sustainable development.

TECHNICAL STATUS

[019] There are some articles and patent documents that describe compositions and methods of obtaining artificial rocks, but none of these documents specifically reveal artificial rocks obtained using resin from castor oil as a polymer matrix and the residues from extraction processes and quartzite beneficiation, as described in this invention. Among these documents, the following can be highlighted:

[020] Patent document BR102016023463-8, SYNTHESIS OF ARTIFICIAL ROCK WITH ELECTROSTATIC precipitator WASTE, where the present invention patent consists of the synthesis of artificial rock for coating from steel industry waste retained in an electrostatic precipitator (PE) and DGEBA epoxy resin. The use of this waste for the development of artificial rock reduces the amount of industrial waste to be disposed of in nature, in addition to adding value to an undesirable waste and enabling the generation of new jobs. Furthermore, this patent enables the replacement of natural materials, marble and granite, reducing the exploration of deposits and production costs. The product obtained from this residue surpasses in strength not only the natural rocks, but also many artificial rocks, and is intended for the civil construction sector. From the results of laboratory tests for industrial application, we can conclude that both formulations evaluated for artificial rock with PE residue (RAPE) had physical properties similar to those reported in the literature and superior bending strength than commercial rock, which may, a priori be used in place of rocky materials. For pavement coating applications, where resistance to abrasive wear is very important, the evaluated artificial stones present a satisfactory performance, being indicated for pavements with medium traffic;

[021] Patent document CN1139083, ARTIFICIAL SCINTILLANT ROCK AND ITS PRODUCTION PROCESS, where the present invention refers to a construction material. Artificial sparkling rock is a kind of artificial composite board by mixing artificial luminous sand with colored sand and quartzite, mixing with unsaturated polyester resin as adhesive and molding on the surface of glass film or polyester with release agent. It is used in interior decoration and furniture, and at night, the luminous sand disperses on the luminescent artificial rock like stars in the sky and this produces an enchanting dreamlande;

[022] Patent document PI0900373-8, COMPOSITION AND PROCESS OF ROCK VIVA ARTIFICIAL. Invention Patent for the composition and process of artificial live rock, which has small internal and external cavities, and because of its extreme porosity, and there may be variations in its weight, color, shape and texture; according to the quality of each component in its variation of proportion. Artificial live rock is composed of the careful and orderly mixture of recycled materials and other materials found abundantly in nature, which are: sand, powdered and grained clay, cement, ground crustacean carapaces, Styrofoam, plastic (pet bottles and ground bags), natural coloring of annatto and water; it is accommodated in molds, drying at room temperature of 20 to 30° C, for 40 to 50 hours, cooked at a temperature of 800 to 1,200° C for 7 to 12 hours, after baking the rock and removed from the oven while still hot and cooled in a shed designated for this at an ambient temperature of 20 to 30°C for completion of the process. The purpose of artificial live rock is to filter the water, and help to facilitate the colonization of algae and other microorganisms beneficial to the aquatic system (paludariums, aquariums and gardens) in addition to performing decorative functions;

[023] Patent document US2017066283 (CA2941188), MATERIAL AND METHOD FOR AN ARTIFICIAL ROCK, where the invention relates to the modification of a synthetic fiber sponge, such as polyester or polyurethane foam, with an epoxy, polyester or acrylic resin to induce a rock product designed for use as a stone substitute in a variety of applications. The manufacturing method comprises: producing a foam block; mold the foam block into any regular or irregular shape; resisting shaped foam block; infusing the weathered foam block with a resin; cure the infused foam block; and finishing the cured foam block. Artificial rock comprises a foam block molded to resemble a rock, an exterior of the foam block infused with a resin;

[024] Patent document FR2233820, LIGHTWEIGHT ARTIFICIALROCK - COMPRISING POROUS, RIGID CORE COATED WITH MATERIAL GIVING IT THE APPEARANCE OF NATURAL ROCK, which describes an artificial rock for rock work in gardens and lawns comprises a rigid, porous core material, consisting of expandable material such as polyurethane, polystyrene, rigid foam or porous cement which is coated with a prep. based on acrylic resin, polyvinyl propionate, polyester resin or cement, prepn. being mixed with kaolin, chalk, BaSO4, quartz or powdered slate, fine sand, powdered SiO2, Fe oxide, TiO2 or other (in) organic pigments that give the appearance of natural rock. Rock is light and therefore easy to handle and transport;

[025] Scientific article by Abirochas - Brazilian Association of Dimension Stone Industries. (2018) Balance of Brazilian exports and imports of ornamental stones in 2017. Available at <www.abirochas.com.br>. accessed on 03/11/2019;

[026] Scientific article by Abirochas - Brazilian Association of Dimension Stone Industries. (2019) Balance of Brazilian exports and imports of ornamental stones in 2018. Available at <www.abirochas.com.br>. accessed on 03/11/2019;

[027] The scientific article by Altoé, T.P., Vidal, F.W.H. (2017). Use of waste from ornamental quartzite mining. VI Conference of the Institutional Capacity Building Program - PCI/CETEM - September 21, 2017;

[028] The scientific article by Souza, L.R., Ribeiro, R.C.C., Carrisso, R.C.C., Silva, L.P., Pacheco, E.B.A.V., Visconte, L.L.Y. (2009) Application of marble waste in the polymer industry. Environmental technology series. Rio de Janeiro: Cetem/MCT, 36p;

[029] Scientific article by Chang, F.C., Lee, M.Y., Lo, S.L., Lin, J.D. (2010). Artificial Aggregate made from waste stone sludge and waste silt: Journal of Environmental Management, 90, p. 2289-2294;

[030] Scientific article by Lee, M.Y., Ko, C.H., Chang, F.C., Lo, S.L., Lin. J.D., Shan, M.Y., Lee, J.C. (2008). Artificial stone slab production using waste glass, stone fragments and vacuum vibratory compaction: Cement & concrete compositrd, 30, p.583-587;

[031] The scientific work of RODRIGUES, Jucélia Maria Emerenciano. Preparation of Polyurethane based on Castor Oil. Natal - RN, 2005. Thesis (Doctorate in Chemical Engineering) - Federal University of Rio Grande do Norte;

[032] The scientific article by VILAR, Walter Dias. Chemistry and Technology of Polyurethanes, 3rd edition. Rio de Janeiro: Vilar Consultoria, 2005; and

[033] The scientific article by NETO, Salvador Claro, Uses and applications of castor oil. Institute of Chemistry. USP - São Carlos. Available at: Accessed on March 14, 2019.

[034] The scientific work of Larissa Ribeiro (et al.), REUSE OF THE IRON ORE RESIDUE THROUGH THE PRODUCTION OF COATING, published in the ebook Green Materials Engineering An EPD Symposium in Honor of Sergio Monteiro (2019) differs from this report the residue , the resin and the process.

[035] The scientific work of Gomes, Maria Luiza PM (et al.), PHYSICAL AND MECHANICAL PROPERTIES OF ARTIFICIAL STONE PRODUCED WITH GRANITE WASTE AND VEGETABLE POLYURETHANE, published in the e-book Green Materials Engineering An EPD Symposium in Honor of Sergio Monteiro ( 2019), differs from the present by the residue and the method of obtaining it. The work of Maria Luiza P.M. et al. used as a charge a residue (of igneous rock) and the one in this report are residues from the extraction (mining) and processing of quartzite, removing process residues from the environment, which are an environmental problem, and which have a high content of quartz, which also differs from the work by Maria Luiza et al.

DESCRIPTION OF THE FIGURES.

[036] Next, reference is made to the Figures that accompany this descriptive report, for a better understanding and illustration of it, where it is seen:

[037] Figure 1 shows a scheme of Compositions of the centroid simplex model, geometrically illustrating the points to obtain experimental proof of the simplex method.

[038] Figure 2 shows a schematic of the method of production of artificial rock slabs, highlighting the flowchart of production of artificial rocks of the present invention.

[039] Figure 3 shows a scheme of the model of artificial rock slab, as a practical example of slabs produced from artificial rock, from Vegetal Polyurethane Resin Based on Castor Oil and Ornamental Rock Residues.

GENERAL DESCRIPTION OF THE INVENTION.

[040] The Artificial Rock of Vegetal Polyurethane Resin Based on Castor Oil and Ornamental Stone Residues and method of obtaining, object of the present invention, aims at the production of artificial rocks with residues from the extraction and processing processes of ornamental rocks, in special quartzite residues, and castor resin. Quartzite has a higher hardness compared to other rock materials, such as marble and granite, for example. The artificial rock of this invention improves the environmental issue, since residues and plant resin are used for its manufacture, without the need to remove (extract) raw materials from the environment, which generate environmental impacts, need resources, etc., and without the use of toxic resin.

[041] Artificial rocks manufactured with the use of other resins are already known in the market. These resins have toxicity, different from the castor oil-based polyurethane resin, which is an ecological and non-toxic resin.

[042] An important issue that is overcome by the proposed invention is the use of waste from the extraction and processing of quartzite and castor bean resin, non-toxic. The amount of this waste that is already disposed of in the environment is very large, that is, there is a large amount of raw material available. With the use of this residue, the environmental impact is reduced.

[043] The resins already used for the manufacture of artificial rocks are toxic resins, such as epoxy, polyester and others. With the use of vegetable resin, from castor bean, an ecological material is produced, without toxicity and with the waste used, less expense in its manufacturing process, contributing to sustainability with regard to the sector of ornamental stones and the construction, and still manufacturing a product with greater added value.

[044] The use of castor bean resin for the production of ecological rock contributes to the sustainable development of the production of a material with high added value.

[045] The resin used to manufacture the rock is based on vegetable polyurethane derived from castor oil, bi-component, solvent-free (100% solid), which does not release toxic vapors, established by the cold mixing of a component A ( prepolymer) and a component B (polyol), with characteristics of impermeability, elasticity and physicochemical stability.

[046] The invention is a composite material of castor bean polyurethane matrix, where the filler used in the form of particles are the residues from the extraction and processing of ornamental rocks (in particular, from the sawing process by multi-thread looms), in special quartzite.

[047] The mining residue (extraction) is comminuted (reduced to its granulometry) in order to ensure the necessary granulometric range for mixing with the processing residue, this is already collected with appropriate granulometry, very fine.

[048] This mixture of quartzite grains constitutes the "charge" of the composite, to it is added the matrix, that is, the polymer, which in this work, is the castor resin.

[049] The procedure for making the artificial agglomerated rock is through the process of vacuum thermo compression vibro.

[050] Table 1 shows the particle size ranges used for quartzite waste. The thick and medium strips are from the extraction residue and the fine one from the multi-wire sawdust residue.

[051] Artificial rocks with resin and ornamental rock waste are produced in three granulometric bands, as shown in Table 1.

Tabela 2. Diferentes composições do modelo simplex

[052] For the ornamental rock residue, which can be in particular the quartzite residue, the experimental design in simplex network is used, with variation of the grain size of the raw material (Figure 1 and Table 2) to determine the proportion of greater packaging of waste used.
Table 1. Particle size ranges of the residue (-) passing through the sieve, (+) retained in the sieve

Table 2. Different compositions of the simplex model

[053] For the manufacture of artificial rocks can be used waste in the proportion of 95 to 85% and resin in the range of 05 to 15%. The residues used to make the rock were oven dried for 24 hours at 110°C in order to remove moisture from the material until the moment of mixing. Components A (pre-polymer) and B (Polyol) of the vegetable polyurethane resin of castor oil are weighed, mixed, ensuring their homogenization. The mixture is then placed in a vacuum chamber to remove the bubbles from the gases formed by the resin polymerization reaction.

[054] After this period, the mixture is taken to a mixer next to the mineral load (residues of quartzite) for the complete mixing and homogenization of the material. It is placed under vacuum for 2-3 minutes to remove bubbles, if any, from inside the dough. This is then formed in a steel mold, to go to the heat press, where it receives a pressure of at least 10 ton. for 20 minutes at a temperature of 60°C under vibration, for better relocation of the load inside the material (Figure 2).

[055] After removing the press, the plate is removed from the mold and taken to the oven for the post-curing process. Polishing was done to wear out any irregularities that may exist on the surface of the plate. The board model is seen in Figure 3.

DETAILED DESCRIPTION AND MODE FOR CARRYING OUT THE INVENTION

[056] The Artificial Rock of Vegetable Polyurethane Resin Based on Castor Oil and Ornamental Stone Waste and method of obtaining, object of the present invention is composed of resin based on vegetable polyurethane originated from castor oil, bi-component, solvent-free (100% solid), established by the cold mixing of an A component (prepolymer) and a B component (polyol), as a polymer matrix and mineral filler (residues from ornamental rock, especially quartzite). Compositions with 95 to 85% of residues and 05 to 15% of resin. The filler used in the form of particles are residues from mining (extraction) and from the processing of ornamental rocks, and especially quartzite.

[057] The artificial rocks with the resin and the ornamental rock residues are produced in three granulometric bands, thick band with grain size 2.38>ø>0.707 mm; media with grain size 0.707>ø>0.063 mm; and fine with grain size 0.063>ø mm.
For a better packaging of the waste, the experimental planning in simplex network is used, with variation in the grain size of the raw material. For this procedure, rock residues can be used, especially quartzite, in the proportion of 95 to 85% and 05 to 15% of vegetable resin for the manufacture of artificial rocks.

[058] The procedure for making the artificial agglomerated rock is through the process of vibro thermo-compression vacuum, consisting of the steps of: drying the quartzite residue in an oven for 24 hours at 110°C; weighing of components A (prepolymer) and B (Polyol) of the vegetable polyurethane resin of castor oil; mixing aiming at its homogenization; mixture placed in a vacuum chamber to remove the bubbles from the gases formed by the resin polymerization reaction; The mixture is taken to a mixer with the mineral charge (residues of quartzite); mixture is placed under vacuum for 2-3 minutes to remove bubbles, if any, from inside the dough; forming in a steel mold, to go to the heat press, where it receives a pressure of at least 10 ton. for 20 minutes at a temperature of 60°C under vibration for better relocation of the load inside the material; plate is removed from the mold; post-oven curing process and optional polishing.

[059] Thus, it can be noted that the Artificial Rock of Plant Polyurethane Resin Based on Castor Oil and Ornamental Rock Waste and method of obtaining, object of the present invention, is an ecological product of high added value, using quartzite residues and non-toxic vegetable resin, which can replace conventional raw materials with great environmental and economic advantages. In today's market there is a demand for artificial material, especially for materials that increasingly meet the specific purposes of an increasingly demanding end user, durable over time, ecologically correct and adaptable to modern techniques of sustainable construction and design. Thus, this new product is an ecological product and which is in accordance with the concept of circular economy, which can introduce new products into the market with the use of rock residues and non-toxic plant resin (eco-products) and, consequently, reduced impact environmental.

BENEFITS

[060] Thus, Artificial Rock of Plant Polyurethane Resin Based on Castor Oil and Ornamental Rock Residues and method of obtaining, object of the present invention, which are artificial rocks produced with polymeric matrix from castor oil and from rock residues, especially quartzite, as described above, present a new and unique configuration that gives them great advantages in relation to artificial rocks currently known and/or produced in the country. Among these advantages, we can mention: the use of waste with a high amount of SiO2 in its composition; material that you already have in quantity and available for use; the reduction in the removal of natural raw materials from the environment; the reduction of the environmental impact, the contribution to sustainability with regard to the ornamental stone sector and civil construction; the use of vegetable resin based on castor oil without toxicity; obtaining a product using castor bean residues and plant resin; the fact that it is an ecological product; the availability in the market of new products to be sold, the generation of new jobs and business opportunities; and Income generation.

[061] Thus, due to the configuration and manufacturing characteristics, described above, it can be clearly noted that the ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON BEAST OIL AND ORNAMENTAL ROCK WASTE AND OBTAINING METHOD, it is a new product for the State of the Art, which are covered by unprecedented conditions of innovation, inventive activity and industrialization, which make it deserve the Invention Patent Privilege.

Claims (4)

ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON CASTOR OIL AND ORNAMENTAL ROCK WASTE AND METHOD OF OBTAINING, characterized by being composed of resin based on vegetable polyurethane originated from castor oil, bi-component, solvent-free (100% solid), established by the cold mixing of an A component (pre-polymer) and a B component (polyol), as a polymer matrix and mineral charge of ornamental rock waste, in particular quartzite, 95 to 85% of rock waste and 05 to 15% resin. ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON CASTOR OIL AND ORNAMENTAL ROCK WASTE AND METHOD OF OBTAINING, artificial rock according to claim 1, characterized by the mineral load of ornamental rock waste, being mining (extraction) and mineral waste. processing of ornamental rocks, and especially quartzite, in the form of particles. ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON CASTOR OIL AND ORNAMENTAL ROCK WASTE AND METHOD OF OBTAINING, artificial rock according to claim 1, characterized by mineral load of ornamental rock waste, used in three granulometric bands, thick band with -8 ø +25 MESH[#], and grain size 2.38>ø>0.707 mm; average with -25 ø +230 MESH[#], and grain size 0.707>ø>0.0630 mm; and fine with -230ø MESH[#], and grain size 0.0630>ø mm. ARTIFICIAL ROCK OF VEGETABLE POLYURETHANE RESIN BASED ON CASTOR OIL AND ORNAMENTAL ROCK WASTE AND METHOD OF PROCUREMENT, method of obtaining the artificial rock of claim 1, carried out through the process of vibro thermo-compression vacuum, characterized by using experimental planning in simplex mesh, with variation of the granulometry of the raw material, rock residue, consisting of the steps of: drying the ornamental rock residue, especially quartzite, in an oven for 24 hours at 110°C; weighing of components A (prepolymer) and B (Polyol) of the vegetable polyurethane resin of castor oil; mixture ensuring its homogenization; mixture placed in a vacuum chamber to remove the bubbles from the gases formed by the resin polymerization reaction; The mixture is taken to a mixer with the mineral charge (residues of quartzite); forming in a steel mold, to go to the heat press, where it receives a pressure of at least 10 ton. for 20 minutes at a temperature of 60°C under vibration for better relocation of the load inside the material; plate is removed from the mold; post-oven curing process and optional polishing.

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