RU2114208C1 - Carbon strip steel - Google Patents

Abstract

FIELD: metallurgy of steel. SUBSTANCE: claimed strip steel comprises (wt %): 0.14- 0.22 carbon; 0.4-0.6 manganese; 0.00-0.17 silicon; up to 0.03 phosphorus; up to 0.04 sulfur; up to 0.3 chromium; up to 0.3 copper; up to 0.08 arsenic and the iron balance provided that 0.98 (Mn)+13.04 (P)+35.02 (S)= 0.392-2.155 where content of components is indicated in wt %. Besides, claimed strip steel further comprises nickel in amount of up to 0.3 wt %. EFFECT: improved operating characteristics of semi product for profiling and lower labor expenditure for manufacturing bent profiles.

Description

 The invention relates to the metallurgy of steel and can be used in the manufacture of billets for bent profiles.

 Bent profiles are often made of hot-rolled carbon strip steel with a thickness of 4-6 mm with a high content of some components (Mn or Cr, Ni, etc.) that provide special operational properties of the steel (for example, increased corrosion resistance).

 The most important indication of the properties of a workpiece for bent profiles is its ductility, since these profiles are made by sequentially bending the elements of the strip workpiece at a relatively large angle in one pass. The properties that steel, used as a billet for profiling, must possess, are described, for example, in the book by V. Anisimov. et al. Expansion of the range of rolled metal products - an economic reserve, Chelyabinsk, Yu. - Ural Prince ed., 1980, ch. III.

Known steel with increased ductility and toughness, containing 7-9 wt.% Mn and 12-15 wt.% Cr (ed. St. USSR N 969778). Also known is corrosion-resistant open-hearth steel, additionally containing Ti, V, Al and Si (ed. St. USSR N 969777). A disadvantage of the known steels is the impossibility of their use as a billet for bent profiles, mainly due to the increased strength properties (more than 65 kgf / mm ² ), which is unacceptable for most existing roll forming mills.

 The closest analogue to the claimed object is steel according to US patent N 4842816, class. C 21 C 38/50 dated June 24, 89

 This iron-based steel contains a given amount of carbon, silicon, manganese and is characterized by the possible additional presence of phosphorus, sulfur, chromium, nickel, copper, molybdenum, aluminum, etc. The disadvantage of this steel is the possibility of cracks when used as a strip blanks for bent profiles, in particular 4-6 mm thick.

 An object of the invention is to improve the operational characteristics of a steel strip billet for bent profiles and reduce labor costs in their manufacture by preventing crack formation and geometry defects.

To solve this problem, carbon-based strip steel based on iron, containing carbon, manganese, silicon, phosphorus, sulfur, chromium and copper, additionally contains arsenic in the following ratio of components, wt.%:
Carbon - 0.14 - 0.22
Manganese - 0.4 - 0.6
Silicon - 0.05 - 0.17
Phosphorus - Up to 0.03
Sulfur - Up to 0.04
Chrome - Up to 0.3
Copper - Up to 0.3
Arsenic - Up to 0.08
Iron - The rest,
provided that the total content of manganese, phosphorus and sulfur is equal
0.98 [Mn] + 14.04 [P] + 35.02 [S] = 0.392 - 2.155,
in addition, the steel may additionally contain up to 0.3 wt.% nickel.

 All of the above limits for the content of components in the proposed strip steel, as well as the values of the total content of Mn, S and P, were obtained as a result of processing of experimental data.

 The essence of the technical solution found is to optimize the content of individual components in semi-quiet steel and to limit the limits of the total content of Mn, S and P, which ensures the necessary plasticity and strength of the workpiece for bent profiles, and in the manufacture of them, the absence of cracks and the required geometry of the profiles.

 This billet is obtained by smelting steel (preferably by a converter method), its subsequent casting into slabs (for example, continuously cast) and hot rolling on a continuous broadband mill to a final thickness of 4-6 mm. The chemical composition of the steel billet is monitored during its manufacture and must be indicated in the accompanying documentation (certificate). Only profiled steel with the above parameters is allowed for profiling. Steel 3ps is one of the most common for the production of rolled products. If the steel 3ps, smelted in the steel mill, has a different content of components than the claimed, then these steels can be sent for the production of other types of rolled products, and the recommended steel 3ps for the production of bent profiles.

 An experimental verification of the proposed technical solution was carried out in the manufacture of bent profiles on a roll-forming unit 2-8 • 100-600 JSC Magnitogorsk Iron and Steel Works.

 The experiments showed that the value of the total content of carbon and manganese in steel has a decisive effect on crack formation during profiling of bent profiles 4-6 mm thick. So, with a total content of C = 0.14-0.22 wt.% And Mn = 0.4-0.6 wt.%, The rejection of profiles along cracks was 4-10%. A decrease in the total content of carbon and manganese in the steel billet (less than the proposed lower limits), for example, due to a decrease in the content of sulfur and phosphorus, complicates the smelting of steel and increases the cost of its production.

 Crack formation during the molding of corrugations is most likely due to the receipt of a fine-grained structure after hot rolling (9-10 points). Geometry defects were manifested in increased "springing" of the ends of the profiles (unbending of vertical elements in the opposite direction) due to the increased rigidity of the fine-grained workpiece.

 Control profiling from a workpiece based on 3ps steel (according to GOST 380) led to sorting up to 4% of profiles with cracks and up to 6% with geometry defects. Thus, the experiments confirmed the acceptability of the technical solution found to fulfill the task and its advantages over the known object.

 Example. Strip carbon steel 4 mm thick contains, wt.%: C = 0.14; Mn = 0.5; Si = 0.07; P = 0.02; S = 0.02; Cr = 0.2; Cu = 0.1; As = 0.05.

The total content of Mn, P and S is equal to:
0.98 • 0.5 + 14.04 • 0.02 + 35.02 • 0.02 = 1.47, which corresponds to the claimed range of values (0.392-2.155).

Claims (2)

1. Carbon strip steel containing carbon, manganese, silicon, phosphorus, sulfur, chromium, copper and iron, characterized in that it additionally contains arsenic in the following ratio of components, wt.%:
Carbon - 0.14 - 0.22
Manganese - 0.4 - 0.6
Silicon - 0.005-0.17
Phosphorus - Up to 0.03
Sulfur - Up to 0.04
Chrome - Up to 0.3
Copper - Up to 0.3
Arsenic - Up to 0.8
Iron - Else
provided that the total content of manganese, phosphorus and sulfur is 0.98 [Mn] + 14.04 [P] + 35.02 [S] = 0.392 - 2.155 wt.%.  2. Steel under item 1, characterized in that it additionally contains Nickel in an amount of 0.3 wt.%.