CN-224199881-U - Nano silicon material doped zinc-aluminum coating steel wire grid

Abstract

The utility model discloses a nano silicon material doped zinc-aluminum coating steel wire grating, which comprises a first grating strip and a second grating strip, wherein two first reinforcing ribs are arranged in the first grating strip, a second reinforcing rib is arranged in the second grating strip, matrix layers are arranged in the first grating strip and the second grating strip, transition layers are arranged in the first grating strip and the second grating strip, and reinforcing layers are arranged in the first grating strip and the second grating strip. This device can consolidate steel wire grating through the cooperation of first strengthening rib and second strengthening rib, improves the holistic intensity of this steel wire grating, through the cooperation of enhancement layer and transition layer, can increase this steel wire grating corrosion resistance, utilizes the matrix layer can increase the wear resistance on this steel wire grating surface, through the surface coating cellular micro-pit and the nanometer SiO 2 coating at the surface of first grating strip and the surface coating of second grating strip.

Inventors

• ZHU SUDONG
• LI LIWEI

Assignees

• 泰安众科建材有限公司

Dates

Publication Date

20260505

Application Date

20250606

Claims (6)

1. 1. The nano silicon material doped zinc-aluminum coating steel wire grating is characterized by comprising a first grating strip (1) and a second grating strip (2), wherein two first reinforcing ribs (3) are arranged in the first grating strip (1), a second reinforcing rib (201) is arranged in the second grating strip (2), a matrix layer (202) is arranged in the first grating strip (1) and in the second grating strip (2), and a transition layer (203) is arranged in the first grating strip (1) and in the second grating strip (2).
2. 2. The nano silicon material doped zinc-aluminum coating steel wire grid is characterized in that a reinforcing layer (204) is arranged in the first grid strip (1) and the second grid strip (2), and the reinforcing layer (204) is a Zn-8Al-5Si-0.5Mg composite layer.
3. 3. The zinc-aluminum-coated steel wire grid doped with nano silicon material according to claim 1, wherein the transition layer (203) is a Zn-12Al-3Si alloy layer, the thickness of the transition layer (203) is 20-25 μm, and the size of nano silicon particles is 20-50nm.
4. 4. The nano-silicon doped zinc-aluminum plated steel wire grid according to claim 1, wherein the base layer (202) is a Zn-5Al alloy plating layer, and the thickness of the base layer (202) is 30-40 μm.
5. 5. The nano silicon material doped zinc-aluminum coating steel wire grid is characterized in that the first grid strips (1) and the second grid strips (2) are interwoven, and the connection parts of the first grid strips (1) and the second grid strips (2) are subjected to plasma activation treatment.
6. 6. The nano silicon material doped zinc-aluminum coating steel wire grid is characterized in that the surfaces of the first grid strips (1) and the second grid strips (2) are respectively provided with honeycomb micro pits and nano SiO 2 coating.

Description

Nano silicon material doped zinc-aluminum coating steel wire grid Technical Field The utility model relates to the field of steel wire grids, in particular to a nano silicon material doped zinc-aluminum coating steel wire grid. Background The steel wire grille is a net-shaped structure material made of high-strength steel wires through welding, braiding or stamping processes, is widely applied to the fields of engineering protection, reinforcement and filtration, and has a core structure formed by intersecting longitudinal main ribs with transverse weft ribs to form diamond-shaped, square or customized grid units, surface treatment is usually assisted to enhance corrosion resistance, low-carbon steel wires are adopted in main stream, stainless steel wires or galvanized steel wires are used in part of high-performance scenes, the braiding mode is divided into a welding grille and a braiding grille, the bearing capacity of the welding grille is higher, the flexibility of the braiding grille is better, and in recent years, a three-dimensional special-shaped braiding technology appears, and the structural stability is improved through hexagonal unit grids. The application field of the steel wire grating comprises the civil engineering of slope protection, tunnel lining reinforcement, traffic foundation construction of highway subgrade reinforcement and railway sleeper bedding, the hydraulic engineering of river channel slope protection and retaining wall drainage system, the environmental protection engineering of refuse landfill impermeable layer and tailing dam filter layer, the corrosion resistance of the existing steel wire grating is poor, the integral strength is insufficient, and the use of the steel wire grating is affected. Disclosure of utility model The utility model aims to provide a nano silicon material doped zinc-aluminum coating steel wire grid so as to solve the problems in the background technology. In order to achieve the above purpose, the present utility model provides the following technical solutions: The utility model provides a zinc aluminium cladding material steel wire grid is doped to nanometer silicon material, includes first grating strip and second grating strip, the inside of first grating strip is equipped with two first strengthening ribs, the inside of second grating strip is equipped with the second strengthening rib, the inside of first grating strip and the inside of second grating strip all are equipped with the base member layer, the inside of first grating strip and the inside of second grating strip all are equipped with the transition layer. In a further embodiment, the first grating strip and the second grating strip are provided with a reinforced layer, and the reinforced layer adopts a Zn-8Al-5Si-0.5Mg composite layer. In a further embodiment, the transition layer is a Zn-12Al-3Si alloy layer, the thickness of the transition layer is 20-25 μm, and the size of the nano-silicon particles is 20-50nm. In a further embodiment, the base layer is a Zn-5Al alloy plating layer, and the thickness of the base layer is 30-40 μm. In a further embodiment, the first and second grating strips are interwoven, the junction of the first and second grating strips being subjected to a plasma activation treatment. In a further embodiment, the surface of the first grating strip and the surface of the second grating strip are provided with honeycomb micro-pits and a nano SiO 2 coating. Compared with the prior art, the utility model has the beneficial effects that: This device can consolidate steel wire grating through the cooperation of first strengthening rib and second strengthening rib, improves the holistic intensity of this steel wire grating, through the cooperation of enhancement layer and transition layer, can increase this steel wire grating corrosion resistance, utilizes the matrix layer can increase the wear resistance on this steel wire grating surface, through at the surface of first grating strip and the surface coating cellular micro-pit of second grating strip and nanometer SiO 2 coating, can further increase steel wire grating's corrosion resistance, influences steel wire grating's use. Drawings Fig. 1 is a schematic diagram of a front perspective structure of a nano silicon material doped zinc-aluminum coating steel wire grid. Fig. 2 is a schematic diagram of a side view of a nano silicon doped zinc-aluminum plated steel wire grid in a three-dimensional structure. Fig. 3 is a cross-sectional view of a second grid bar in the nano-silicon doped zinc-aluminum plated steel wire grid. Fig. 4 is an enlarged schematic view of the structure of the nano silicon doped zinc-aluminum plated steel wire grid at a position A in fig. 3. In the figure, 1, a first grating strip, 2, a second grating strip, 201, a second reinforcing rib, 202, a basal layer, 203, a transition layer, 204, a reinforcing layer and 3, a first reinforcing rib. Detailed Description In the description of the present