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BRD Steel reinforcing wire mesh, Made From High Strength Hard Drawn/Cold Rolled Steel Wires, Electrically Spot Welded into square or rectangular grids by Digitally Controlled Automatic Welder (To Reduce Lost Of Tensile Strength). Available In Sizes A (Square), B (Rectangular), C (Long), DA (Small Square) & Staggered/Alternating Arrangements.
Mesh Orientation Bend Type
BRD Steel reinforcing wire mesh, Made From High Strength Hard Drawn/Cold Rolled Steel Wires, Electrically Spot Welded into square or rectangular grids by Digitally Controlled Automatic Welder (To Reduce Lost Of Tensile Strength). Available In Sizes A (Square), B (Rectangular), C (Long), DA (Small Square) & Staggered/Alternating Arrangements.
Mesh Orientation Bend Type
It Is Used As A Structural Reinforcement And Serves As Internal Skeletal Structure In Concrete Buildings, Prefabricated Cages, Precast Building Components, Retaining Walls, Slab Reinforcement, Precast Products Such As: Drainage Pipes, Box & Pipe Culverts, RC U-Drain Pipes, Industrial Concrete Panels Etc
Tension laps
Tension laps length should be at least equal to the design tension anchorage length necessary to develop the required stress in the reinforcement.
Compression Laps
The length should be at least 25% more than the compression anchorage
length. In the detailing of steel fabric, two cross welds are provided to
transfer the stresses. In sidelaps of one-way slabs, half yield strength laps
with overlap of only one cross weld are acceptable.
This is commonly used in top (negative) reinforcement. Full yield strength
lap should always be provided when lap length is not specific.
It Is Used As A Structural Reinforcement And Serves As Internal Skeletal Structure In Concrete Buildings, Prefabricated Cages, Precast Building Components, Retaining Walls, Slab Reinforcement, Precast Products Such As: Drainage Pipes, Box & Pipe Culverts, RC U-Drain Pipes, Industrial Concrete Panels Etc
Tension laps
Tension laps length should be at least equal to the design tension anchorage length necessary to develop the required stress in the reinforcement.
Compression Laps
The length should be at least 25% more than the compression anchorage
length. In the detailing of steel fabric, two cross welds are provided to
transfer the stresses. In sidelaps of one-way slabs, half yield strength laps
with overlap of only one cross weld are acceptable.
This is commonly used in top (negative) reinforcement. Full yield strength
lap should always be provided when lap length is not specific.
Steel Fabric (Standard Sheet) | ||
Dimensions (Length/Width) | 6.00m/2.20m | |
8.00m/2.20m | ||
Size | A, B, C and DA | |
Strength Of Reinforcement (N/mm²) | 500 | |
Steel Wire Grade | BS 4482 | Hard-Drawn Cold-Rolled |
Wire Diameter (mm) | Main Wire | 4mm - 13mm |
Cross Wire | ||
Norminal Pitch (mm) | Main Wire | 100mm/200mm/400mm |
Cross Wire | ||
Steel Area (mm²/m) | 49 - 1328 | |
Wire Arrangement | Staggered | |
Alternating | ||
Wire Form Type | CQ (Round Bar)/ BS (Deformed) |
Bend Type
End Anchorage In The Form Of Hooks And Bends Can Be Customized To
Specific Requirements Of Clients
Steel Fabric (Standard Sheet) | ||
Dimensions (Length/Width) | 6.00m/2.20m | |
8.00m/2.20m | ||
Size | A, B, C and DA | |
Strength Of Reinforcement (N/mm²) | 500 | |
Steel Wire Grade | BS 4482 | Hard-Drawn Cold-Rolled |
Wire Diameter (mm) | Main Wire | 4mm - 13mm |
Cross Wire | ||
Norminal Pitch (mm) | Main Wire | 100mm/200mm/400mm |
Cross Wire | ||
Steel Area (mm²/m) | 49 - 1328 | |
Wire Arrangement | Staggered | |
Alternating | ||
Wire Form Type | CQ (Round Bar)/ BS (Deformed) |
Bend Type
End Anchorage In The Form Of Hooks And Bends Can Be Customized To
Specific Requirements Of Clients
1. Reinforce Concrete Structure as Internal Skeleton
2. Eliminates Construction Wastage and Reduces Costs
3. Save Time & Money With Reduced Weight And Easy Transportation 4.
Quality Inspection and Control Ensures Quality Materials And Welding 5.
Reduces Amount Of Steel Required For Construction by 25% 6.
Decreases Construction Time and Eases Installation
1. Reinforce Concrete Structure as Internal Skeleton
2. Eliminates Construction Wastage and Reduces Costs
3. Save Time & Money With Reduced Weight And Easy Transportation 4.
Quality Inspection and Control Ensures Quality Materials And Welding 5.
Reduces Amount Of Steel Required For Construction by 25% 6.
Decreases Construction Time and Eases Installation