Soldering not quenching and tempering steel plate in high intensity by large line energy, and manufacturing method

A technology of large line energy welding and high-strength steel plate, applied in the direction of manufacturing tools, metal rolling, metal rolling, etc., can solve the problem of unfavorable resistance to larger line energy welding and realize controlled rolling and controlled cooling, adverse product quality , difficult to control, etc.

Inactive Publication Date: 2007-10-10
WUHAN UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] (2) There is no clear regulation on the content of oxygen, so it is difficult to improve product quality and welding line energy;
[0008] (3) Si content is higher, because higher content of Si will promote the formation of M / A and reduce the toughness of HAZ;
[0009] (4) Contain expensive metal vanadium, which increases the cost of the product;
[0010] (5) Some are produced by quenching and tempering process, so the production process is complicated, there are many links, and the production cost is high. Due to the use of quenching and tempering process, the carbon content is generally higher than that of non-quenching and tempering process, which is not conducive to the resistance to larger Line energy welding and realization of controlled rolling and controlled cooling and mechanical heat treatment process (TMCP);
[0011] (6) Steel contains rare earth elements, rare earth elements are very active elements, not easy to control, and easy to pollute molten steel, which is not conducive to the improvement of product quality

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] A large heat input welding non-quenched and tempered high-strength steel and a manufacturing method thereof. The chemical composition and content of the slab are: C is 0.04-0.08wt%, Si is 0.2-0.4wt%, Mn is 1.3-1.8wt%, Als is 0.02-0.05wt%, and Nb is 0.03-0.07wt%. , Ti is 0.01-0.05wt%, N is 0.006-0.010wt%, B is 0.001-0.002wt%, P<0.01wt%, S<0.01wt%, and the rest is Fe and unavoidable impurities.

[0021] The process conditions adopted in this embodiment are: molten iron and steel scrap are smelted into molten steel by converter and then refined; the refining process is to first measure the oxygen content in molten steel with a fast oxygen-fixing probe, and keep the oxygen content in molten steel at 600ppm. Then use Fe-Ti alloy for deoxidation, use Al wire for final deoxidation, and add B after final deoxidation; then adjust the temperature of molten steel to the tapping temperature, and cast it into a slab of 210mm. Finally, it is hot-rolled after continuous casting. The ...

Embodiment 2

[0024] A large heat input welding non-quenched and tempered high-strength steel and a manufacturing method thereof. The chemical composition and content of the slab are: C is 0.03-0.07wt%, Si is 0.2-0.4wt%, Mn is 1.0-1.6wt%, Als is 0.03-0.06wt%, Nb is 0.03-0.05wt%, Ti is 0.01-0.05wt%, N is 0.004-0.0080wt%, B is 0.001-0.003wt%, P<0.01wt%, S<0.0065wt%, and the rest is Fe and unavoidable impurities.

[0025] The process adopted is: the molten iron is smelted into molten steel with a converter and then refined; the refining process is to first measure the oxygen content in the molten steel with a fast oxygen-fixing probe, and keep the oxygen content in the molten steel at 300ppm. Then use Fe-Ti alloy for deoxidation, use Al wire for final deoxidation, add B according to the composition of the slab; then adjust the temperature of the molten steel to the tapping temperature, and cast it into a 250mm billet.

[0026] Heat the cast slab to 1220-1280°C, soak for 2-3 hours, and then ho...

Embodiment 3

[0029] A large heat input welding non-quenched and tempered high-strength steel and a manufacturing method thereof. The chemical composition and content of the slab are: C is 0.02-0.06wt%, Si is 0.1-0.3wt%, Mn is 1.2-1.7wt%, Als is 0.01-0.05wt%, Nb is 0.02-0.06wt%, Ti is 0.01-0.05wt%, N is 0.006-0.010wt%, B is 0.001-0.002wt%, P<0.01wt%, S<0.008wt%, and the rest is Fe and unavoidable impurities.

[0030] The process adopted is: using an electric arc furnace to smelt scrap steel into molten steel and then refining; the refining process is to first measure the oxygen content in molten steel with a fast oxygen-fixing probe, and keep the oxygen content in molten steel at 400ppm. Then use Fe-Ti alloy for deoxidation, and use Al wire for final deoxidation. According to the chemical composition of the slab, add B after final deoxidation; then adjust the temperature of molten steel to the tapping temperature and pour it into a 250mm billet.

[0031] The hot rolling process is as follo...

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Abstract

This invention relates to a method for producing non-quenched and tempered high-strength steel plate suitable for high heat input welding. The chemical compositions are: C 0.01-0.25 wt.%, Si 0.05-0.5 wt.%, Mn 0.5-1.8 wt.%, Als 0.001-0.06 wt.%, Nb 0.01-0.08 wt.%, Ti 0.01-0.08 wt.%, N 0.002-0.012 wt.%, B 0.0001-0.003 wt.%, P less than 0.015 wt.%, S less than 0.015 wt.%, Fe and impurities. The method comprises: steelmaking and refining molten iron, waste steel or their mixture in a converter or electric arc furnace so that the oxygen content is 10-600 ppm, performing deoxidation with Fe-Ti alloy or metal Ti, performing final deoxidation with Al wire, adding B, continuously casting, and hot-rolling. The obtained steel plate is suitable for 150-600 kJ / cm high heat input welding, and has such advantages as high welding quality, high production efficiency, and saved energy.

Description

Technical field: [0001] The invention belongs to the technical field of low-alloy high-strength steel. In particular, it relates to a non-quenched and tempered low-alloy high-strength steel welded with large heat input and a manufacturing method thereof. Background technique [0002] Low-alloy high-strength steel is widely used in infrastructure, important facilities and large buildings such as buildings, bridges, pressure vessels, storage tanks, pipelines and ships. Since the end of the 1970s, in many fields such as shipbuilding, petroleum, and urban construction, engineering structures have increasingly developed in the direction of large-scale and high-parameters. [0003] In recent years, in order to improve the welding efficiency of large-scale engineering structures and ensure the safety and reliability of their use, single-sided submerged arc welding, gas-electric welding, electroslag welding and other high-energy welding technologies with high welding efficiency hav...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C33/04C22C38/14C21C7/06C21D8/02B21B37/00
CPCY02P10/20
Inventor 吴开明
Owner WUHAN UNIV OF SCI & TECH
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