High tension high carbon prestressing steel cable 7 wire pc strands weights
Low Relaxation Prestressed Concrete Steel Wire Strand, normally we call it PC STRAND production process has strict quality. PC Strand (Bonded Prestressed Concrete Wire Strand) are made of high carbon steel wire rods, which are cold-drawn into steel wires after surface treatment, and then a certain amount of steel wires are synthesized into strands, and then subjected to a stress-relieving stabilization process. To extend durability, the wire can be coated with a metal or non-metal coating or coating such as galvanized or epoxy. To increase the grip strength of the concrete, the surface can be scored. Unbonded prestressed steel strands are made of ordinary prestressed steel strands, coated with antiseptic grease or paraffin and coated with high density polyethylene(HDPE).
1）High tensile strength, low relaxation, stable modulus of elasticity, stress-relieved, firm connection with concrete, low stress, stable construction, good combination with steel reinforced concrete; saving material, reducing distortion and construction weight, increasing the abrasion resistance, water resistance, stiffness.
2）We offer PC Strand which confirm to the technical standards such as GB/T 5223, GB/T 5224, ASTM A-416, BS 5896, JIS G3536 or the standards agreed by both of the customers and us.
3）PC strand can also be supplied in various forms for pre- or post-tensioning applications, with plain or galvanized material ranging from 3 wires, 7 wires, 19 wire and compacted construction.
1）Our PC strand is mainly used for the reinforcement of prestressed concrete structures, such as large-span railway and road bridges, major bridges, silos, buildings, dams, floor slabs, foundations, large concrete vessels, atomic reactor buildings, stadiums, airport hangers, pre-cast segments, crane beams, anchorages and multi-storey industrial buildings etc.
2）Our PC strand is also used for the construction of highways, poles and water towers in civil construction, and energy source sea transportation, house buildings, water control projects, and rock and earth anchoring components to increase the tensile force.