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Composite stone plate and manufacturing method thereof
The composite stone plate comprises a stone layer, a back plate is tightly bonded to the outer wall of one side of the stone layer, a nano coating is laid on the outer wall of the opposite side of the stone layer, a mark number area is arranged at the position, connected with the nano coating, of the stone layer, and the stone layer is made of high-quality natural rock plates which serve as raw materials. The back plate is formed by stripping on the surface of the natural rock plate, the back plate is formed by stacking a plurality of fiber layers, the thickness of each fiber layer is 50-70 microns, the thickness of the back plate is 1.2-1.4 mm, each fiber layer is composed of large-tow carbon fibers and curing glue, and every two adjacent fiber layers are arranged according to the opposite fiber directions. The nanometer coating is an ultrathin nanometer coating based on fluorine modified special silane, a nanometer film is formed on the surface of the stone layer in a vapor deposition mode, and the composite stone plate and the manufacturing method thereof have the effect of improving the overall performance of ultrathin stone.
本发明公开了一种复合石材板及其制作方法包括石材层,所述石材层的一侧外壁紧密粘合有背板,且石材层的相向一侧外壁铺设有纳米涂层,所述石材层上与纳米涂层的连接位置设置有标号区,所述石材层是以优质天然岩板为原材料,在天然岩板表面剥离而成,所述背板是以多层纤维层叠加而成,且每层纤维层的厚度在于50‑70μm,背板的厚度在于1.2‑1.4mm,每层所述纤维层是由大丝束碳纤维和固化胶构成,且相邻两层纤维层按照相反的纤维走向放置,所述纳米涂层是基于氟改性特殊硅烷的超薄纳米涂层,且是通过气相沉积的方式在石材层的表面形成纳米膜,本发明公开的复合石材板及其制作方法具有实现超薄石材整体性能的提高的效果。
Composite stone plate and manufacturing method thereof
The composite stone plate comprises a stone layer, a back plate is tightly bonded to the outer wall of one side of the stone layer, a nano coating is laid on the outer wall of the opposite side of the stone layer, a mark number area is arranged at the position, connected with the nano coating, of the stone layer, and the stone layer is made of high-quality natural rock plates which serve as raw materials. The back plate is formed by stripping on the surface of the natural rock plate, the back plate is formed by stacking a plurality of fiber layers, the thickness of each fiber layer is 50-70 microns, the thickness of the back plate is 1.2-1.4 mm, each fiber layer is composed of large-tow carbon fibers and curing glue, and every two adjacent fiber layers are arranged according to the opposite fiber directions. The nanometer coating is an ultrathin nanometer coating based on fluorine modified special silane, a nanometer film is formed on the surface of the stone layer in a vapor deposition mode, and the composite stone plate and the manufacturing method thereof have the effect of improving the overall performance of ultrathin stone.
本发明公开了一种复合石材板及其制作方法包括石材层,所述石材层的一侧外壁紧密粘合有背板,且石材层的相向一侧外壁铺设有纳米涂层,所述石材层上与纳米涂层的连接位置设置有标号区,所述石材层是以优质天然岩板为原材料,在天然岩板表面剥离而成,所述背板是以多层纤维层叠加而成,且每层纤维层的厚度在于50‑70μm,背板的厚度在于1.2‑1.4mm,每层所述纤维层是由大丝束碳纤维和固化胶构成,且相邻两层纤维层按照相反的纤维走向放置,所述纳米涂层是基于氟改性特殊硅烷的超薄纳米涂层,且是通过气相沉积的方式在石材层的表面形成纳米膜,本发明公开的复合石材板及其制作方法具有实现超薄石材整体性能的提高的效果。
Composite stone plate and manufacturing method thereof
一种复合石材板及其制作方法
HUANG SICONG (author)
2024-06-04
Patent
Electronic Resource
Chinese
IPC:
B32B
LAYERED PRODUCTS, i.e. PRODUCTS BUILT-UP OF STRATA OF FLAT OR NON-FLAT, e.g. CELLULAR OR HONEYCOMB, FORM
,
Schichtkörper, d.h. aus Ebenen oder gewölbten Schichten, z.B. mit zell- oder wabenförmiger Form, aufgebaute Erzeugnisse
/
E04F
FINISHING WORK ON BUILDINGS, e.g. STAIRS, FLOORS
,
Ausbau von Bauwerken, z.B. Treppen, Fußböden
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