Perforated Metal Mesh Perforated Metal is also named Perforated Mesh, Perforated Metal mesh, or Punched Metal, It can be supplied in folded or flat panels. From various metal plate. punched openings can be round, square, t Materials: galvanized plates, cold plates, stainless steel plates, aluminium plates, aluminium magnesium alloy plates, etc. Features: Perforated Metal is also named Perforated Mesh, Punched Metal mesh, or Punched Metal, It can be supplied in folded or flat panels. From various metal plate. punched openings can be round, square, triangle, diamond, hexagonal, cross, etc. Application: The opening size, density and forms of distribution can bring different functions in separation, sifting, filtration, drying, cooling, cleaning, etc. The Perforated sheets can be used with advantage in many situations, for instance when requiring sound reduction, weight saving, air control, filtering, a decorative surface, or simply a non-skid effect. Based on their many qualities, perforated sheets are well suited for sorting, facades, ceilings, lamps, shelves, shielding, steps and of course many other purposes as well. It can be done according to the requests of the customers. Perforated metal mesh production process: Raw Material(metal sheet,stainless steel plate)---Measure Size----Choose hole mold---Perforated with machine---Determination---Packing---load
HINGE JOINT FENCING WIRE MESH SHEEP GOAT CATTLE RURAL FARM GALVANISED FENCE Hinge joint fence offers high strength against the violent clashing of horses and other animals to ensure the safety. The zinc coating layer adds corrosion and rust resistance for the fence. Good flexibility, good pressure resistance, weather resistance properties, long service time. Even the cut pieces will not deform under pressure. Hinge joint fence is a kind of mesh used in cattle, goat, deer and pig. It is used for grassland, protection of ecological projects, Papadopoulos grassland, forestry, highway and environment. sports venues fence, the road network of green belt protection.
Nylon mesh.
Stainless steel wire cloth, aluminum, brass, bronze and copper wire cloth, plain steel woven wire cloth, welded wire cloth, hexagonal wire cloth, polyester and nylon meshes, perforated metals, expanded metals, meshes for petroleum industry, sintered laminates, metal fiber and metallic felt, wire mesh discs and weld packs and filters, insect screens/window screens, test sieves, bar gratings.
Woven wire cloth, welded wire cloth and wires, stainless steel wire cloth, perforated metal, expanded metal, bar gratings, test sieves, fence netting, sintered laminates, hexagonal wire cloth, rhombic wire cloth, polyester and nylon meshes, plain steel woven wire cloth, metal fiber and metallic felt, air filters, liquid filters and other filters, insect screens/window screens, galvanized, epoxy black and hot-dipped wire cloth and wires, warp knitting netting for shading, fishing and safety protection.
Dry filter bag, liquid filter bag, PP spunbond fabric, nylon mesh.
Stainless steel wire mesh, crimped wire mesh, square woven wire mesh, dutch woven wire mesh and wire cloth, stainless steel wire and various wire mesh processed filter discs.
Black annealed wire, welded wire mesh fence/panel/roll, chain link fence, nails, galvanized wire, gabion box, hexagonal wire mesh, barbed wire and other wire mesh products.
Polyester wire mesh.Transportation
Polyester wire mesh.Transportation
Wire mesh.
wire mesh.
Wire mesh.
Wire mesh.
Wire mesh, perforated products, filter elements.
Wire Mesh.
Material Pure nickel wire N2 N4 N6 N8 Mesh count 1 400 Wire diameter 0.03mm-1.0mm Weaving Plain weave and twill weave Feature Excellent corrosion, acid and alkali resistance. High electrical conductivity. Termal conductivity and ductility. Heat resistance and wear resistance. Application Widely used as the filtration materials in the mining, oil, chemical, food, pharmaceutical, machine and other fields. Has high electrical conductivity, so it can be used in the electronics. Can be used for battery production.
The Sintered Stainless Steel Multi-Layer Wire Mesh Laminated Plate is a product constructed by overlapping multiple layers of woven wire mesh and subsequently sintering them in a vacuum furnace under high temperatures and pressures. This process enhances the strength and overall durability of the material while ensuring uniform filter aperture distribution. By addressing the limitations of individual layers such as reduced strength, poor rigidity, and unstable aperture size, this sintered multi-layer wire mesh plate offers a balanced combination of filter rating, permeability, and robustness. Ideal for applications demanding high filter accuracy, resistance to pressure differentials, abrasion, heat, cold, and processing, this product finds utility across various industries including petrochemicals, nuclear, synthetic fibers, pharmaceuticals, food, and aerospace. Sintering can be applied to various types of woven wire meshes, effectively bonding all wires together to prevent medium migration. Through the vacuum furnace sintering process, the wires are fused securely, ensuring stability and eliminating the risk of component failure or malfunctions in critical applications such as medical or hydraulic fluid filtration. Once sintered, the mesh structure remains fixed, preventing wire movement under pressure and ensuring consistent aperture sizes throughout its service life. Specification Material: Stainless steel wire Filtration precision: 1um Technic: Woven, vacuum sintering Layers: 5 layers Width: 20mm Length: 100mm Thickness: 5mm What is the structure of 5-layers stainless steel wire mesh plate? The structure of TOPTITECH's five-layer laminated board, a widely adopted sintered wire mesh design, involves layering a single fine wire mesh between two thicker square woven meshes and enclosing them within two robust Dutch woven metal wire meshes. This configuration is sintered to create a solid plate, with the subtle wire mesh acting as the filter bed. Customizable to specific filtration requirements ranging from 1 micron to 200 microns, this design offers versatility and precision in filtration applications.
TOPTITECH's 1.4mm Thickness Multi-layer (3 layers) Titanium Mesh for Electrolyzer features a multi-layer design, each meticulously crafted layer offers superior strength, corrosion resistance, and conductivity. The optimized thickness of 1.4mm strikes the perfect balance between structural integrity and efficient electrolysis, ensuring uniform current distribution and minimizing energy loss. Crafted with precision, TOPTITECH's titanium mesh features a multi-layer design, consisting of three distinct layers. Each layer is meticulously engineered to deliver exceptional strength, corrosion resistance, and conductivity. The combination of these layers ensures optimal performance and longevity, even under demanding operating conditions. Specifications Material: GR1 titanium Size: 50x50mm Pore size:1x2mm, 2x4mm, 0.5x1.5mm Thickness: 1.4mm, 1mm, 0.9mm Technique: Sintering Features Enhanced Strength and Durability: Our titanium mesh features a multi-layer construction that delivers superior strength and durability. Withstanding high pressures and harsh chemical environments, this mesh offers long-lasting performance, reducing maintenance and replacement costs. Excellent Conductivity: Crafted from high-quality titanium material, our mesh exhibits excellent conductivity. The multi-layer design ensures uniform current distribution, enhancing electrolysis efficiency and minimizing energy consumption. Superior Corrosion Resistance: Titanium is renowned for its exceptional corrosion resistance properties. Our titanium mesh withstands various corrosive substances and environments, making it ideal for electrolytic processes involving strong acids, alkalis, and other corrosive media. Improved Energy Efficiency: Harness the power of energy efficiency with our titanium mesh. Its multi-layer construction and excellent conductivity ensure minimal energy loss during electrolysis, maximizing energy utilization and reducing operational costs. Contribute to sustainable practices while achieving optimal results. Precise Current Distribution: Achieve precise and uniform current distribution with our titanium mesh. The multi-layer design enhances the flow of electrolytes through the mesh, ensuring consistent and controlled electrochemical reactions. This promotes high product quality and minimizes the risk of uneven deposition or plating. Sustainable Solution: Embrace sustainability with our titanium mesh. Made from a recyclable material, it offers a greener alternative for your electrolysis processes. Its long lifespan and reduced energy requirements contribute to environmental conservation and align with your eco-conscious goals. Differences Between Multi-layer Sintered Titanium Mesh and Multi-layer Sintered Stainless Steel Mesh
The multi-layer sintered stainless steel wire mesh filter tube is a type of filter component. It is formed by multiple layers of fine stainless steel wire mesh and the gaps between the layers are bonded through a special high-temperature sintering process, creating a tubular structure. This type of filter tube typically employs high-quality stainlessThe manufacturing process of this type of filter tube involves several steps: Selection of high-quality stainless steel wire materials, such as 316L stainless steel wire, typically arranged in multiple layers. Selection of high-quality stainless steel wire materials. This causes the layers of wire mesh to sinter and fuse together, creating an integral filtering structure. Filter tubes form a fixed grid structure. With precise pore sizes and a certain level of filtration accuracy, effectively filtering out tiny particles and impurities in liquids or gases. Finally, the tube is cut or customized into different sizes and shapes to meet specific filtration requirements. The main features Effective Filtration: To ensure sterility and hygiene, pharmaceutical factories routinely perform thorough cleaning and disinfection of pharmaceutical tools and filtration equipment. Sintered stainless steel powder filters facilitate this process as steel, unlike other metals, has fewer pores that easily trap impurities. Micron-Level Pores: The mesh filter core can remove particles as small as 0.2 microns and can be customized for your specific equipment. Stainless steel's malleability and stable performance are robust. Choosing the appropriate stainless steel sanitary filter depends on its application within the processing unit. Easy Cleaning and Disinfection: The popularity of sintered stainless steel filters in the pharmaceutical industry stems from their ease of cleaning and disinfection. Maintaining equipment cleanliness ensures prolonged equipment lifespan while minimizing contamination risks. High and Low-Temperature Resistance: Stainless steel alloys are known for their excellent performance at both high and low temperatures. At high temperatures, stainless steel demonstrates outstanding compressive strength, making it suitable for high-temperature filtration needs. Conversely, at lower temperatures, stainless steel's tensile strength actually increases more than at room temperature, making it ideal for refrigeration and low-temperature filtration equipment.