Chromium-molybdenum low-alloy zinc-plating steel strand manufacturing method

A technology of galvanized steel strand and chromium-molybdenum low alloy, which is applied in the direction of manufacturing tools, furnace types, furnaces, etc., can solve the problems of hydrogen-induced cracks, inability to spread uniformly, and unstable performance, so as to reduce deformation and cracking and consolidate Technical effect, the effect of avoiding uneven heating

Active Publication Date: 2014-03-19
TIANSHUN GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002]In the prior art, the atomic activity of carbon and nitrogen elements in steel raw materials is low, and the air masses formed by each atom cannot form strong interactions with dislocations. Dislocations can be activated without providing a large stress, so that the performance is 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, which induce hydrogen-induced cracks and hydrogen-induced delayed cracks.
[0003]In the prior art, only a single quenching method is generally used, so that the quenching cracking and internal cracking of the forging cannot be prevented, and the carbides cannot be further fully dissolved, and the uniformity cannot be achieved. 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.
[0004] At the same time, in our conventional steel strand galvanizing process, improper selection of galvanizing solution, concentration, PH value and electroplating current will cause poor electroplating effect , and the activity in the electroplating solution is poor, which will not only cause uneven galvanizing, but also surface galvanizing defects, and the electroplating is not uniform and smooth.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] A method for manufacturing a chromium-molybdenum low-alloy galvanized steel strand provided in this embodiment comprises the following steps:

[0028] 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%, 0-0.50% residual Elements, the rest is Fe, the billet is smelted and finished rolled to the required size of the wire rod billet, the smelting temperature is 800 °C;

[0029] Step (2): Perform hydrogen expansion heat treatment on the wire rod blank obtained in step (1), which specifically includes: heating the wire rod blank obtained in step (1) to 790°C and keeping it for 360 minutes, then air cooling to 290°C Keep it warm for 180 minutes, the...

Embodiment 2

[0037] A method for manufacturing a chromium-molybdenum low-alloy galvanized steel strand provided in this embodiment comprises the following steps:

[0038] 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 Elements, the rest is Fe, the billet is smelted and finished rolled to the required size of the wire rod billet, the smelting temperature is 850 °C;

[0039] Step (2): Perform hydrogen expansion heat treatment on the wire rod blank obtained in step (1), which specifically includes: heating the wire rod blank obtained in step (1) to 810°C and holding it for 360 minutes, then air cooling to 310°C Keep it w...

Embodiment 3

[0048] A method for manufacturing a chromium-molybdenum low-alloy galvanized steel strand provided in this embodiment comprises the following steps:

[0049] 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, the billet is smelted and finish rolled to The smelting temperature is 825°C for the wire rod blanks of required size;

[0050] Step (2): Perform hydrogen expansion heat treatment on the wire rod blank obtained in step (1), which specifically includes: heating the wire rod blank obtained in step (1) to 800°C and holding it for 360 minutes, then air cooling to 300°C Keep it warm for 180 minutes, t...

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PUM

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Abstract

The present invention discloses a chromium-molybdenum low-alloy zinc-plating steel strand manufacturing method, wherein the chromium-nickel-molybdenum alloy structure steel 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 zinc-plating steel strand manufacturing method designed by the present invention, the prepared chromium-molybdenum low-alloy zinc-plating steel strand has characteristics of high strength, good hardenability good, cracking resistance, low relaxation degree, and smooth and uniform surface zinc plating.

Description

technical field [0001] The invention relates to a method for manufacturing a chromium-molybdenum low-alloy galvanized steel strand. Background technique [0002] In the prior art, 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, so that the performance Very unstable, and 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. [0003] In the prior art, only a single quenching method is generally used, so that the quenching cracking and internal cracking of the forging cannot be prevented. At the same time, the carbides cannot be further fully dissolved and cannot be uniformly diffused, so that the precipitation...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B21C37/04C22C38/50C22C38/46C21D9/52C21D1/62C25D7/06C25D3/22
Inventor 吴海洋姚圣法
Owner TIANSHUN GROUP
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