Ultrahigh toughness steel plate for deep-water pressure resistant shell and manufacture method thereof

An ultra-high-strength, high-pressure technology, applied in the manufacture of tools, metal rolling, metal rolling, etc., can solve the problems of reducing the surface defect sensitivity of ultra-high-strength steel plates, low-temperature toughness and weldability overquenching, etc.

An ultra-high-strength, high-pressure technology, applied in the manufacture of tools, metal rolling, metal rolling, etc., can solve the problems of reducing the surface defect sensitivity of ultra-high-strength steel plates, low-temperature toughness and weldability overquenching, etc.

CN102851611AActive Publication Date: 2013-01-02BAOSHAN IRON & STEEL CO LTD
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  • Ultrahigh toughness steel plate for deep-water pressure resistant shell and manufacture method thereof
  • Ultrahigh toughness steel plate for deep-water pressure resistant shell and manufacture method thereof
  • Ultrahigh toughness steel plate for deep-water pressure resistant shell and manufacture method thereof

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Embodiment Construction

[0076] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0077] Refer to Table 1 for the examples of the components of the present invention, and Tables 2 to 5 are the manufacturing methods of the examples of the present invention. Table 6 shows the properties of the steel of the embodiment of the present invention.

[0078] see figure 1 , it can be seen that the microstructure of the present invention is uniform and fine martensite and bainite.

[0079] To sum up, the present invention combines the combination design of alloy elements of the steel plate with the TMCP+QT process to obtain excellent 1000MPa ultra-high-strength steel plates, and at the same time, the plastic toughness and welding processability of the steel plates are also excellent, and the problem is solved successfully. The contradiction between the strength, plasticity, low temperature toughness and weldability of the ultra-high strength st...

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Abstract

The invention discloses ultrahigh toughness steel plate for deep-water pressure resistant shell and manufacture method thereof. The steel plate comprises (by wt%) C 0.05-0.09, Si less than or equal to 0.10, Mn 0.45-0.95, P less than or equal to 0.012, S less than or equal to 0.0030, Cr 0.40-0.80, Mo 0.40-0.80, Ni 3.50-5.50, Cu 0.20-0.50, Ti 0.003-0.010, Als 0.010-0.030, V 0.040-0.080, N less than or equal to 0.0060, O less than or equal to 0.0030, Ca 0.001-0.004, and Fe and unavoidable impurity in balance. The method adopts optimized TMCP and offline quenching and tempering (QT) process, endows microscopic structure of product steel plate with fine low carbon tempered martensite and small amount of tempered bainite, with average packet size smaller than 15 Mum, solves the problem of overquenching of ultrahigh strength steel plate surface, and is especially suitable for use in hydroelectric pressure water pipe and steel yoke pipe of ultrahigh water head (greater than or equal to 1,200 m) power station, and polar ocean platform and deep-water pressure resistant shell.

Description

technical field [0001] The invention relates to an ultra-high-strength steel plate and a manufacturing method thereof, in particular to an ultra-high-strength toughness steel plate for a deep-water resistant pressure shell and a manufacturing method thereof. Single value)≥100J, elongation at break δ 5 ≥17% and uniform elongation Ag≥7%, excellent weldability. Background technique [0002] As we all know, low-carbon (high-strength) low-alloy steel is one of the most important engineering structural materials, widely used in oil and gas pipelines, offshore platforms, shipbuilding, bridge structures, boiler vessels, building structures, automobile industry, railway transportation and machinery manufacturing. Medium; low carbon (high strength) low alloy steel performance depends on its chemical composition and manufacturing process, in which strength, toughness, plasticity and weldability are the most important properties of low carbon (high strength) low alloy steel, which ulti...

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Application Information

Patent Timeline
02 Jan 2013
Publication
CN102851611A
IPC
C22C38/50; B21B37/00; C21D1/25
Inventors
刘自成; 李开杰