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Low-cost, high-performance ultra-high-strength steel for construction machinery and manufacturing method thereof

A technology for construction machinery and ultra-high-strength steel, which is applied to ultra-high-strength steel and its manufacturing method, can solve the problems that the yield strength and tensile strength of steel plates cannot be reached, the manufacturing cycle is long, and can not be satisfied, etc. Excellent effect of fatigue shock load characteristics

Active Publication Date: 2016-06-29
BAOSTEEL ZHANJIANG IRON & STEEL CO LTD +1
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Problems solved by technology

[0006] Chinese Patent No. ZL201110445792.X discloses an ultra-high-strength construction machinery steel with excellent performance and its manufacturing method. Although the performance indicators and weldability of the steel plate are excellent, due to the addition of about 0.50% Mo element and the need for offline recycling Pyrothermal treatment, the manufacturing cost is relatively high, the manufacturing cycle is relatively long, and it cannot meet the requirements of the increasingly competitive thick plate market; more importantly, the yield strength and tensile strength of the steel plate produced by this invention technology cannot reach 1300MPa and 1500MPa, It cannot meet the requirements for the production of ultra-high-strength steel plates with a tensile strength of 1500MPa

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  • Low-cost, high-performance ultra-high-strength steel for construction machinery and manufacturing method thereof
  • Low-cost, high-performance ultra-high-strength steel for construction machinery and manufacturing method thereof
  • Low-cost, high-performance ultra-high-strength steel for construction machinery and manufacturing method thereof

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Embodiment Construction

[0078] The present invention will be further described below in conjunction with the embodiments and accompanying drawings.

[0079] Table 1 shows the composition of the steel example of the present invention, and the balance is Fe and unavoidable impurities. Tables 2 to 4 are the manufacturing processes of the steel examples of the present invention, respectively. Table 5 is the performance of the steel of the embodiment of the present invention.

[0080] Depend on figure 1 It can be seen from the microstructure of the steel of the embodiment of the present invention that the microstructure of the steel plate is very fine and uniform, the microstructure type is tempered martensite, and the size of the martensite crystal group (packet) is small and uniform and between blocks The orientation difference is large (inferred from the strong deformation streamline), the average grain size is below 20 μm (in the longitudinal direction), and the ultra-high-strength steel plate with ...

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Abstract

Low-cost, high-performance ultra-high-strength steel for construction machinery and its manufacturing method, its composition weight percentage is: C: 0.18% to 0.22%, Si: ≤0.10%, Mn: 1.30% to 1.60%, P: ≤0.013%, S: ≤0.0030%, Cr: 0.30%~0.60%, Mo: 0.10%~0.30%, B: 0.0010%~0.0020%, Ti: 0.008%~0.018%, Nb: 0.010%~0.030%, Al: 0.030% ~0.070%, N: ≤0.0050%, O≤0.0030%, Mg: 0.001%~0.004%, the rest is iron and unavoidable inclusions. The invention adopts the combination of controlled rolling + online DQST, on the basis of adding a small amount of precious Mo alloy, while obtaining ultra-high strength, the low-temperature toughness, weldability and fatigue impact load resistance of the steel plate are also excellent, and successfully solves the problem of ultra-high strength. The contradiction between the strength, low temperature plasticity and toughness, delayed crack resistance and weldability of high-strength steel plate and the problem of overquenching of the surface (sub) surface of the steel plate.

Description

technical field [0001] The present invention relates to ultra-high-strength steel and its manufacturing method, in particular to a low-cost, high-performance ultra-high-strength steel for engineering machinery and its manufacturing method. 40°C Charpy transverse impact energy (single value) ≥ 27J, elongation at break δ 5 ≥10% and -20°C Charpy impact energy in welding heat affected zone ≥27J (average value) / 21J (single value) has excellent fatigue impact resistance. 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 containers, building structures, automobile industry, railway transportation and engineering machinery manufacturing Among them; the performance of low carbon (high strength) low alloy steel depends on its chemical composition and manufacturing process, among which st...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C22C38/38C22C38/32C21D8/02
Inventor 刘自成施青吴勇
Owner BAOSTEEL ZHANJIANG IRON & STEEL CO LTD
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