Refractory anti-seismic construction steel for high-toughness welding structures, and production method thereof

A technology for welded structure and high strength and toughness is applied in the field of fire-resistant and seismic-resistant construction steel for high-strength and toughness welded structures, which can solve the problems of high content of precious alloying element Mo, high manufacturing cost of engineering structures, and low welding efficiency of thick steel plates, and simplify welding production. Process, improve welding efficiency, high strength effect

Inactive Publication Date: 2010-04-07
武钢集团有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are many reports on fire-resistant steel for the structure of the building, such as Japanese Patents JP4056721, JP4056722, and JP4056723, but the disadvantages of the above three patents are that the Mo content of precious alloying elements is higher in the chemical composition (percentage by weight is greater than 0.50%). The cost of alloying is increased, which limits the application of steel grades
Another example is Japanese patents JP5059433, JP6264136, JP3126816, and JP3130319. Although the above four patents have reduced the content of the precious alloy element Mo, they must be heat treated to improve the comprehensive mechanical properties of the steel during the production process, which not only increases the production cost, And the production process is more complex
[0003] U.S. Patent No. 4,990,196 discloses building steel with excellent fire resistance and low yield ratio (shock resistance), but its disadvantage is that the content of precious alloying element Mo is relatively high in its chemical composition (percentage by weight is greater than 0.40%), thereby improving the The cost of alloying limits the use, and the welding efficiency of thick steel plates is low, and the manufacturing cost of engineering structures is high, which has limitations for building thick steel plates in high-rise buildings and earthquake-prone areas

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Melt the steel with the specified composition in Table 1 in the converter, add the alloy and then make the cast slab through continuous casting, heat the cast slab to 1200-1310 ℃ and fully austenitize it, then roll it out of the furnace, the initial rolling temperature is 1100 ℃, the starting temperature of finish rolling is 980℃, the cumulative reduction rate of the last three passes is controlled at 30%, the finishing temperature of finish rolling is 880℃, and the rolling is carried out in the two-phase region (ferrite and austenite phase region) after rolling. Spray water to cool quickly, and then cool to room temperature under control. The thickness of the rolled steel plate is 16mm.

Embodiment 2

[0031] In this embodiment, the initial rolling start temperature is 1150°C, the finish rolling start temperature is 960°C, the cumulative reduction rate of the last three passes is controlled at 45%, the finish rolling finish temperature is 860°C, and the rest are the same as in Example 1. The thickness of the rolled steel plate is 18mm.

Embodiment 3

[0033] In this embodiment, the initial rolling start temperature is 1180°C, the finish rolling start temperature is 940°C, the cumulative reduction rate of the last three passes is controlled at 35%, the finish rolling finish temperature is 840°C, and the rest are the same as in Example 1. The thickness of the rolled steel plate is 20mm.

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Abstract

The invention discloses refractory anti-seismic construction steel for high-toughness welding structures, and a production method thereof, and solves the problem that the traditional construction steel is high in Mo that is a noble alloying element, high in producing-processing cost, low in refractory property and poor in anti-seismic performance. Based on the chemical composition of steel in percentage by weight, the steel comprises 0.05 to 0.13 percent of C, 0.10 to 0.60 percent of Si, 0.80 to 1.80 percent of Mn, less than or equal to 0.015 percent of P, less than or equal to 0.010 percent of S, 0.15 to 0.50 percent of Mo, 0.15 to 0.50 percent of Cr, 0.015 to 0.050 percent of Nb, and 0.010 to 0.050 percent of Als, at least one of 0.01 to 0.10 percent of V, 0.005 to 0.020 percent of Ti, 0.05 to 0.50 percent of Ni, 0.0010 to 0.020 percent of RE and 0.0010 to 0.010 percent of Ca, and the balance of Fe and inevitable impurities. The steel has the advantages of low content of Mo that is a noble alloying element, short production process and cycle, excellent refractory and anti-seismic performance, good cold-hot machining performance and excellent low-temperature toughness and welding performance.

Description

technical field [0001] The invention relates to a low-alloy high-strength steel, in particular to a fire-resistant and earthquake-resistant building steel for high-strength toughness welded structures and a production method thereof. Background technique [0002] In modern buildings, in order to reduce weight, shorten construction period and increase space, high-rise and super-high-rise steel structure buildings are increasing day by day, but once a fire occurs in a high-rise building, it may cause huge personal injury and property loss. Therefore, the fire resistance requirements for high-rise building steel structures are getting higher and higher. Because in the event of a fire, the impact of high temperature will rapidly reduce the strength of the steel and cannot maintain the required strength of the building structure. Therefore, in the fire-resistant design of many high-rise buildings, fire-resistant coatings are usually used to protect the steel structure. In fire-r...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C22C38/50C22C38/58C21D8/02
Inventor 童明伟卜勇郭斌杜明张开广梅荣利习天辉张政权董中波芮晓龙
Owner 武钢集团有限公司
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