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A method for manufacturing chromium-molybdenum low-alloy prestressed aluminum-clad steel wire

A chromium-molybdenum low-alloy, aluminum-clad steel wire technology, applied in the direction of manufacturing tools, furnace types, furnaces, etc., can solve problems such as delayed cracks, corrosion service life, steel strand cracks, etc., to reduce deformation and cracking, improve durability Corrosion performance, effect of prolonging service life

Active Publication Date: 2015-12-30
TIANSHUN GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002]Prestressed steel wire is a bimetallic composite material, mainly used in the manufacture of bridge cables. The problem of corrosion and short service life
[0003] At the same time, the atomic activity of carbon and nitrogen elements in the steel raw material composition is low, and the air mass formed by each atom cannot form a strong interaction with the dislocation, and the dislocation can be activated without providing a large external stress, thus making the performance very unstable. At the same time, the hydrogen content in the steel strand is above 2.0ppm, and the steel strand is prone to cracks, thereby inducing hydrogen-induced cracks and hydrogen-induced delayed hysteresis cracks
[0004]In the prior art, only a single quenching method is generally used, which cannot prevent the quenching cracking and internal cracking of the forgings, and at the same time, the carbides cannot be further fully dissolved and cannot be uniformly quenched. Diffusion, so that the precipitation of carbides between grains cannot be avoided, resulting in excessive intergranular corrosion and pitting corrosion, which affects the technical effect of the heat treatment process after smelting.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0028] A method for manufacturing chromium-molybdenum low-alloy prestressed aluminum-clad steel wire provided in this embodiment includes the following specific steps:

[0029] Step (1): Using chromium-nickel-molybdenum alloy structural steel as a blank, the chromium-nickel-molybdenum alloy structural steel includes the following components in mass percentages: carbon: 0.28%, silicon: 0%, manganese: 0%, chromium: 0.80%, Nickel: 3.00%, Molybdenum: 0.40%, Phosphorus: 0%, Sulfur: 0%, Hydrogen: 1.0ppm, Vanadium: 0.10%, Titanium: 0%, Copper: 0%, Aluminum: 0%, 0% residual elements, The rest is Fe;

[0030] Heating and finish rolling the above-mentioned billet to the steel wire billet of the required size, the heating temperature is 800°C;

[0031] Step (2): performing hydrogen expansion heat treatment on the steel wire blank obtained in step (1), specifically including: heating the steel wire blank obtained in step (1) to 870° C. Then heat it to 585°C and keep it warm for 650 minu...

Embodiment 2

[0039] This embodiment provides a method for manufacturing chromium-molybdenum low-alloy prestressed aluminum-clad steel wire, including the following specific steps:

[0040] Step (1): Using chromium-nickel-molybdenum alloy structural steel as a blank, the chromium-nickel-molybdenum alloy structural steel includes the following components in mass percentages: carbon: 0.38%, silicon: 0.35%, manganese: 0.90%, chromium: 1.50%, Nickel: 4.00%, Molybdenum: 0.60%, Phosphorus: 0.015%, Sulfur: 0.015%, Hydrogen: 2.0ppm, Vanadium: 0.20%, Titanium: 0.025%, Copper: 0.20%, Aluminum: 0.05%, 0-0.50% residual element, the rest is Fe;

[0041] Heating and finish rolling the above billet to the steel wire billet of required size, the heating temperature is 850°C;

[0042] Step (2): performing hydrogen expansion heat treatment on the steel wire billet obtained in step (1), specifically including: heating the steel wire billet obtained in step (1) to 890° C. Then heat it to 615°C and keep it warm...

Embodiment 3

[0049] This embodiment provides a method for manufacturing chromium-molybdenum low-alloy prestressed aluminum-clad steel wire, including the following specific steps:

[0050] Step (1): Using chromium-nickel-molybdenum alloy structural steel as a blank, the chromium-nickel-molybdenum alloy structural steel includes the following components in mass percentages: 0.3% carbon, 0.3% silicon, 0.80% manganese, 1.20% chromium, 3.50% nickel, 0.50% molybdenum, 0.01% phosphorus, 0.01% sulfur, 1.0ppm hydrogen, 0.15% vanadium, 0.02% titanium, 0.15% copper, 0.03% aluminum, 0-0.50% residual elements, the rest is Fe;

[0051] Heating and finish rolling the above billet to the steel wire billet of required size, the heating temperature is 825°C;

[0052] Step (2): performing hydrogen expansion heat treatment on the steel wire blank obtained in step (1), specifically including: heating the steel wire blank obtained in step (1) to 880° C. Then heat it to 600°C and keep it for 650 minutes, then ...

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PUM

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Abstract

The present invention discloses a chromium-molybdenum low-alloy prestress aluminum-cladding steel wire manufacturing method, wherein the chromium-nickel-molybdenum alloy structure steel is adopted as a billet material and comprises, by mass, 0.28-0.38% of carbon, 0-0.35% of silicon, 0-0.90% of manganese, 0.80-1.50% of chromium, 3.00-4.00% of nickel, 0.40-0.60% of molybdenum, 0-0.015%of phosphorus, 0-0.015% of sulfur, 0-2.0 ppm of hydrogen, 0.10-0.20% of vanadium, 0-0.025% of titanium, 0-0.20% of copper, 0-0.05% of aluminum, 0-0.50% of residual elements, and the balance of Fe. According to the chromium-molybdenum low-alloy prestress aluminum-cladding steel wire manufacturing method designed by the present invention, strength and toughness of the steel wire can be substantially increased, a corrosion resistance degree of the steel wire can be enhanced, and a service life can be prolonged.

Description

technical field [0001] The invention relates to a method for manufacturing chromium-molybdenum low-alloy prestressed aluminum-clad steel wire. Background technique [0002] The prestressed steel wire belongs to the bimetal composite material, and is mainly used in the manufacture of bridge cables. In the prior art, the prestressed steel strand with a smooth surface is often used, which has the problems of serious corrosion and short service life. [0003] At the same time, the atomic activity of carbon and nitrogen elements in the steel raw material composition is low, and the air mass formed by each atom cannot form a strong interaction with the dislocation, and the dislocation can be activated without providing a large external stress, thus making the performance very unstable. , At the same time, the hydrogen content in the steel strand is above 2.0ppm, and the steel strand is prone to cracks, thereby inducing hydrogen-induced cracks and hydrogen-induced delayed hysteresi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C38/46C22C38/50C21D9/52B21C37/04
Inventor 吴海洋姚圣法
Owner TIANSHUN GROUP
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