Abstract: The present invention relates to panels or slabs formed by stone agglomerate for the manufacture of which an organic binder containing an ingredient of a plant origin is used. The panels or slabs object of the invention are formed from stone materials or the like, granulated and subsequently agglomerated by means of a binder, specifically an organic resin containing one or more polyols of a plant origin. Furthermore, by means of using this binder together with materials from waste and used and/or recycled products, a material with good features and with a very high content of recycled material or material of a renewable origin can be obtained. The manufactured panel or slab containing a resin part of a plant origin of the present invention is particularly suitable for its use indoors as a kitchen counter, a bathroom counter, or any work surface, as well as for its use as flooring or sidings.
Type:
Application
Filed:
March 18, 2009
Publication date:
May 10, 2012
Applicant:
COSENTINO, S.A.
Inventors:
Jose Luis Ramon Moreno, Salvador Cristobal Rodriguez Garcia, Eladio Pinero Gonzalez, Lorena Solar Moya, Adrian Medina Jimenez
Abstract: The invention relates to a process for manufacturing artificial stone boards especially suitable for outdoors comprising the phases of: grinding of the different materials with varied granulometry forming the filler, containing the resin with the catalyst and optionally the resin, a moulding and compaction phase of the obtained paste by vibro-compression under vacuum, and a hardening phase by polymerization of the resin by means of heat, ending with a cooling and polishing phase.
Abstract: Article in the form of a slab or flag fabricated from stone agglomerate coated with thin, transparent films of TiO2 or ZnO, using dry deposition techniques, with a high level of resistance to solar degradation. The article has the form of a slab or flag fabricated from stone agglomerate coated with a thin, transparent film of TiO2 and/or ZnO with low or zero photocatalytic activity, the film being deposited by dry deposition, physical vapour deposition (PVD) or plasma enhanced chemical vapour deposition (PECVD) techniques. The article has a high level of resistance to solar degradation, which means that the resulting material is suitable for external environments.
Type:
Application
Filed:
July 23, 2009
Publication date:
June 23, 2011
Applicant:
COSENTINO, S.A.
Inventors:
Jose Luis Ramon Moreno, Salvador Cristobal Rodriguez Garcia, Raul Pozas Bravo, Francisco Gracia Torres, Adrian Medina Jimenez, Francisco Yubero Valencia, Agustín Rodriguez González-Elipe, Jorge Gil Rostra, Pablo Romero Gómez, Patricia Del Arco González
Abstract: The invention relates to a process for manufacturing artificial stone boards with polymerizable resins with a “veined effect” by means of the vibro-compaction under vacuum system comprising a first grinding phase of the different materials forming the filler, a second phase containing a resin with the catalyst and optionally a third phase consisting of the mixing of the two previous phases until the homogenization of the materials with the resin, a fourth phase of moulding and compaction of the obtained paste by vibro-compression under vacuum, a fifth hardening phase by polymerization of the resin by means of heating and a last cooling, cutting and polishing phase.
Abstract: The invention relates to a process for manufacturing artificial stone boards especially suitable for outdoors comprising the phases of: grinding of the different materials with varied granulometry forming the filler, containing the resin with the catalyst and optionally the resin, a moulding and compaction phase of the obtained paste by vibro-compression under vacuum, and a hardening phase by polymerization of the resin by means of heat, ending with a cooling and polishing phase.
Abstract: The invention relates to a process for manufacturing artificial stone boards with polymerizable resins with a “veined effect” by means of the vibro-compaction under vacuum system comprising a first grinding phase of the different materials forming the filler, a second phase containing a resin with the catalyst and optionally a third phase consisting of the mixing of the two previous phases until the homogenization of the materials with the resin, a fourth phase of moulding and compaction of the obtained paste by vibro-compression under vacuum, a fifth hardening phase by polymerization of the resin by means of heating and a last cooling, cutting and polishing phase.