Zinc-induced-crack-resistant steel plate and manufacturing method thereof

Abstract

The invention discloses a zinc-induced-crack-resistant steel plate and a manufacturing method thereof. Low alloy steel subjected to low C-ultralow Si-high Mn-low Als-(Ti+Nb) micro alloying treatment is taken as a basis, the Als content of the steel is appropriately reduced, situations that Mn/C is greater than or equal to 15, [(%Mn)+0.75 (%Mo)]* (%C) is less than or equal to 0.16, Nb/Ti is greater than or equal to 1.8, Ti/N is 1.50-3.40, CEZ is less than or equal to 0.44%, the B content is less than or equal to 2 ppm, and Ni/Cu is greater than or equal to 1.50 are controlled, the Ca treatment is performed, the Ca/S ratio is controlled to be 1.0-3.0, (%Ca)*(%S)0.28 is controlled to be less than or equal to 1.0*10<-3>, and a TMCP (Thermal Mechanical Control Process) is optimized, so that the micro-structure of a finished steel plate is a ferrite-dispersedly distributed tiny bainitic colony, the average grain size is less than 10 mu m, and homogeneous excellent mechanical properties, excellent weldability and zinc-induced-crack-resistant properties are obtained, therefore, the zinc-induced-crack-resistant steel plate is especially suitable for being used as a zinc-spray coating anti-corrosion steel plate for marine structures, a zinc-spray anti-corrosion steel plate for extra-high voltage power transmission structures, a zinc-spray coating anti-corrosion steel plate for coast bridge structures, and the like.

Description

technical field [0001] The present invention relates to steel for structural use and a manufacturing method thereof, in particular to a zinc-induced crack-resistant steel plate and a manufacturing method thereof. Cracks (CEZ≤0.44%), the microstructure of the finished steel plate is ferrite + finely dispersed and uniformly distributed bainite crystal clusters, the average grain size is controlled below 10 μm, and the microstructure of the welded heat-affected zone is fine and uniform Ferrite + a small amount of pearlite. 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, bridges, pressure vessels, building structures, automobile industry, railway transportation and machinery manufacturing . The properties of low-carbon (high-strength) low-alloy steel depend on its chemical composition and the process sys...

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Problems solved by technology

[0005] The above-mentioned large number of patent documents only explain how to realize the low-temperature toughness of the base metal steel plate, and explain less about how to obtain excellent low-temperature toughness of the heat-affected zone (HAZ) under welding conditions, especially how to ensure the low-temperature toughness of the heat-affected zone when welding with large heat input. The structure is uniform and fine ferrite + a small amount of pearlite, which makes ferrite nucleate and grow in the original austenite grain boundary, basically eliminates the original austenite grain bounda

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