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Galvanized steel wire technical parameters
Galvanized steel wire ropes are divided into two categories: cold-dip galvanized steel wire ropes and hot-dip galvanized steel wire ropes.There is an essential difference between hot-dip galvanizing and cold-dip galvanizing in terms of process. Hot-dip galvanizing relies on physical thermal diffusion to form a coating. First, an iron-zinc compound is formed, and then a pure zinc layer is formed on the surface of the iron-zinc compound.The highest zinc content on hot-dip galvanizing is only 593g/m2.Hot-dip galvanizing will reduce the mechanical properties of the steel wire. Galvanized steel wire ropes that require high strength and high corrosion resistance are often twisted by electro-galvanized steel wire.Hot-dip galvanizing is zinc plating in molten zinc liquid at 450-480 degrees.
Hot-dip galvanized steel wire rope is a market trend and will become the first choice for galvanized steel wire rope users.Because hot-dip galvanized steel wire rope has a very high cost performance.The steel wires of hot-dip galvanized steel wire ropes form coatings by physical thermal diffusion. First, an iron-zinc compound is formed, and then a pure zinc layer is formed on the surface of the iron-zinc compound on the surface of the galvanized steel wire.The highest zinc content on hot-dip galvanized steel wire rope is only 593g/m2.Hot-dip galvanizing is zinc plating in molten zinc liquid at 450-480 degrees.
Table 1: Steel wire tensile strength table/Tensile Strength
Nominal diameter Nominal Diameter(mm) | Nominal tensile strength tensile strength (MPa) |
0.6-2.0 | 95010501150125013501450 |
Table 2: Zinc layer weight table / Zinc Coating Weight Table
Nominal diameter Nominal Diameter(mm) | Minimum zinc layer weightMin, coat weight(g/m²) | |
Tensile strength (s1150) tensile strength(≤1150) | Tensile strength (>1150) tensile strength(>1150) | |
0.6-1.0 | 60-120 | Negotiable |
1.0-2.0 | 60-120 | Negotiable |
Galvanized steel wire technical parameters
Galvanized steel wire ropes are divided into two categories: cold-dip galvanized steel wire ropes and hot-dip galvanized steel wire ropes.There is an essential difference between hot-dip galvanizing and cold-dip galvanizing in terms of process. Hot-dip galvanizing relies on physical thermal diffusion to form a coating. First, an iron-zinc compound is formed, and then a pure zinc layer is formed on the surface of the iron-zinc compound.The highest zinc content on hot-dip galvanizing is only 593g/m2.Hot-dip galvanizing will reduce the mechanical properties of the steel wire. Galvanized steel wire ropes that require high strength and high corrosion resistance are often twisted by electro-galvanized steel wire.Hot-dip galvanizing is zinc plating in molten zinc liquid at 450-480 degrees.
Hot-dip galvanized steel wire rope is a market trend and will become the first choice for galvanized steel wire rope users.Because hot-dip galvanized steel wire rope has a very high cost performance.The steel wires of hot-dip galvanized steel wire ropes form coatings by physical thermal diffusion. First, an iron-zinc compound is formed, and then a pure zinc layer is formed on the surface of the iron-zinc compound on the surface of the galvanized steel wire.The highest zinc content on hot-dip galvanized steel wire rope is only 593g/m2.Hot-dip galvanizing is zinc plating in molten zinc liquid at 450-480 degrees.
Table 1: Steel wire tensile strength table/Tensile Strength
Nominal diameter Nominal Diameter(mm) | Nominal tensile strength tensile strength (MPa) |
0.6-2.0 | 95010501150125013501450 |
Table 2: Zinc layer weight table / Zinc Coating Weight Table
Nominal diameter Nominal Diameter(mm) | Minimum zinc layer weightMin, coat weight(g/m²) | |
Tensile strength (s1150) tensile strength(≤1150) | Tensile strength (>1150) tensile strength(>1150) | |
0.6-1.0 | 60-120 | Negotiable |
1.0-2.0 | 60-120 | Negotiable |
