Materials: gal. Iron wire(hot dipped galvanized and electric galvanized ), stainless steel wire, pvc coated wire
Patterns: welded before weaving, after weaving, galvanized before weaving and after weaving in square opening or rectangular .
General sizes: normally we provide 1/4" to 3", in rolls 30m or 100' long and in width of 36", 48", 0.6m, 1m, 1.2m, 1.5m. Other sizes also available at customers specific requirements.
Uses: building, fences, feeding and protection use.
General sizes: normally we provide 1/4" to 3", in rolls 30m or 100' long and in width of 36", 48", 0.6m, 1m, 1.2m, 1.5m. Other sizes also available at customers specific requirements.
Welded messh is made by electric galvanized wire. Which is hot-dipped galvanized and then plastic coated in the high temperature. And the whole process is done with automatic production line. Material:High quality low carbon steel wire,stainless steel wire, and PVC Types of Welded Mesh : Hot dipped galvanized Electrical galvanized PVC coated Plastic sprayed and more Sizes: Wire diameter: 1-12 mm Opening: 100X100 mm, 100X150 mm, 100X200 mm and more. Panel width: from 100 cm to 300 cm or customize. Panel length: from 200 cm to 1200 cm
All meshes and sizes available Rolls from 3 to 6 ft.
We are using gi wire & stainless steel wire of good quality for manufacturing of products. As per buyers requirement.
1). Mesh:1/4, 3/8, 5/8, 3/4", 1" to 6" 2). Width:2' to 6' 3). Length:10' to 300" As clients requirement
Welded wire mesh is made of high-quality iron wire welded mesh Ugh automatic process and sophisticated welding technique, laid horizontally and vertically, individually welded at every intersection.The products is level and flat. Welded wire mesh is extensively used in industry and agriculture construction, transportation and mening for all such purposes as poultry houses, egg baskets, runway enclosures, draining rack, fruit drying screen, fence.
Custom Weld Mesh Welded mesh, also known as welded wire mesh, is a type of metal screen that is made by welding individual wire strands together at their intersection points. The wires can be made of various materials, such as stainless steel, galvanized steel, or aluminum, and can be of different gauges or thicknesses. Welded mesh is widely used in a variety of applications, including fencing, construction, agriculture, and industrial settings. It is often used as a barrier or reinforcement in concrete structures, as a support for climbing plants, or as a protective cover for machinery and equipment. The benefits of using welded mesh include its strength, durability, and versatility. It can be manufactured in a wide range of sizes and shapes to suit different applications, and can also be customized to meet specific requirements. Welded mesh is also relatively easy to install and maintain, making it a popular choice for many applications. Custom weld mesh is a type of welded wire mesh that is made to specific requirements, such as size, shape, wire thickness, and mesh opening. It is commonly used in a variety of applications, including fencing, construction, agriculture, and industrial settings. The custom weld mesh is made by welding individual wires together at their intersection points to create a mesh panel. The wire used in custom weld mesh can be made of various materials, such as stainless steel, carbon steel, galvanized steel, or aluminum. The mesh can be made with a wide range of opening sizes and shapes, depending on the application. The benefits of using custom weld mesh include its strength, durability, and versatility. It can be used for a wide range of applications, from simple fencing to complex industrial machinery. Custom weld mesh is also relatively easy to install and maintain, making it a popular choice for many applications.
Welded mesh, also known as welded wire mesh, is a type of metal screen that is made by welding individual wire strands together at their intersection points. The wires can be made of various materials, such as stainless steel, galvanized steel, or aluminum, and can be of different gauges or thicknesses. Welded mesh is widely used in a variety of applications, including fencing, construction, agriculture, and industrial settings. It is often used as a barrier or reinforcement in concrete structures, as a support for climbing plants, or as a protective cover for machinery and equipment. The benefits of using welded mesh include its strength, durability, and versatility. It can be manufactured in a wide range of sizes and shapes to suit different applications, and can also be customized to meet specific requirements. Welded mesh is also relatively easy to install and maintain, making it a popular choice for many applications.
Galvanised iron sheet comes in various size such as 2x2x2.5mmx4x8 2x2x3.5mmx4x8 2x2x4mmx4x8
Welded mesh fabric Welded mesh fabric used for the reinforcement of concrete is manufactured to international standard specifications. Features: 1welded mesh reinforcing sheets are the most commonly used form of reinforcing in concrete and is particularly suited for flat slab construction and concrete surface beds. Other design applications would be: Retaining walls Shear walls Beams and columns. Concrete paving overlays Suspended floor slabs Swimming pool and sp rayed concrete reinforcing 2welded mesh sheets can be detailed as either flat or bend sheets depending on the contract requirements. 3welded mesh sheets can be fabricated to non-standard sizes depending on contract requirements. 4welded mesh reinforcement reduces construction time considerably by eliminating the tying of reinforcing bars on site. 5designated fabric mats are standard welded reinforcing sheets and can be scheduled simply by reference to the fabric type, sheet dimensions and in instances where bend material is required the bending shape code. (the reference is the nominal mass of the fabric in kg/m x 100) 6the cold-rolled deformed wire used in welded mesh reinforcement fabric has a minimum characteristic strength (0.2% proof stress) of 485 mpa compared to 450 mpa for high tensile rebar. Reinforcing fabric may be used at higher stresses than high tensile rebar resulting in material saving of up to