UA78268C2 - Steel - Google Patents

Abstract

The invention relates to the metallurgy, in particular to steels with high viscosity at cryogenic temperatures, good fabrication, stability to the crumbling and corrosion which can be used at manufacture of oil-, gas- and product pipelines, sea platforms. The steel contains, weight %: carbon – 0.02-0.11, manganese – 0.10-1.8, silicium – 0.06-0.6, chrome – 0.005-0.30, nickel – 0.005-1.0, vanadium – 0.01-0.12, a niobium – 0.02-0.10, titanium – 0.01-0.04, aluminium – 0.01-0.05, calcium – 0.0005-0.008, sulfur – 0.0005-0.008, phosphorus – 0.001-0.012, nitrogen – 0.001-0.012, cuprum – 0.005-0.25, stibium – 0.0001-0.005, stannum – 0.0001-0.007, arsenic – 0.0001-0.008, molybdenum – 0.0001-0.5, iron - the rest. Thus EMBED Equation.3 .

Description

Description of the invention

The invention relates to metallurgy, in particular to steels with high viscosity at negative temperatures, 2 good weldability, resistance to embrittlement and corrosion, heat resistance in the area of high temperatures, and can be used for the manufacture of oil, gas and food pipelines, marine platforms, welded constructions, containers working under pressure, various equipment and its elements at a temperature from minus 1009 C to plus 450960. 70 Known steel containing the following components, wt.9o:

Carbon 0.03-0.11

Manganese 0.90-1.80

Silicon 0.06-0.60

Chromium 0.005-0.30 12 Vanadium 0.02-0.12

Nickel 0.005-0.30

Niobium 0.03-0.10

Titanium 0.010-0.040

Aluminum 0.010-0.055 no

Calcium 0.001-0.005

Sulfur 0.0005-0.008

Phosphorus /0.0005-0.010

Nitrogen 0.001-0.012 tsp

Copper 0.005-0.25 o

Antimony 0.001-0.005

Tin 0.0.001-0.008

Arsenic 001-0.007

Other iron (patent RF Mo2141002, published November 10, 1999). (Se)

In terms of its properties, the specified steel meets the requirements necessary for the manufacture of oil, gas and product pipelines and other welded structures operating at temperatures from -1002C to 45020C. However, for the manufacture of the above and other products from sheets, the thickness of which exceeds 20mm , known steel has an insufficient level of strength characteristics. This shortcoming can be eliminated by increasing their annealing properties and by increasing the concentration of alloying elements, but at the same time, the susceptibility of steel to embrittlement can increase significantly.

The objective of this invention is to improve the strength characteristics of steel. The technical result consists in obtaining, in sheets or blanks up to 50 mm thick, a yield strength higher than 550N/mm?, a strength limit higher than "820N/mm? and at the same time maintaining a high level of viscosity at temperatures up to minus 100 C, resistance to s.c. embrittlement during manufacturing and operation, weldability in factory and field conditions. a Technical result is achieved by the fact that steel containing carbon, manganese, silicon, vanadium, titanium, niobium, aluminum, nickel, chromium, copper, sulfur, phosphorus, nitrogen, calcium, antimony, tin, arsenic and iron , additionally contains molybdenum with the following ratio of components, wt.9o: -I Carbon 0.02-0.11

Manganese 0.01-1.80

So Silicon 0.06-0.60 km Chromium 0.005-0.30 bu 50 Vanadium 0.02-0.12

Nickel 0.005-0.30

IR f) Niobium 0.03-010

Titanium 0.010-0.040

Aluminum 0.010-0.055

Calcium 0.001-0.005 o Sulfur 0.0005-0.008

Phosphorus 0.0005-0.010 ko Nitrogen 0.001-0.012

Copper 0.005-0.25 60 Antimony 0.001-0.005

Tin 0.0.001-0.0081

Arsenic 001-0.007

Molybdenum 0.0001-0.50

Other iron, b5, while the total content of nickel and manganese is related to the concentration of molybdenum and phosphorus as follows -Д-

ratio, in mass.Oo:

We - We ' --I - - «| "We eat 5005

The specified limits of the content of nickel, manganese, molybdenum and phosphorus in steel in combination with the given ratio ensure simultaneous satisfaction of the requirements both for increasing the incandescence for sheets with a thickness of up to BOmm and ensuring high values of strength characteristics and viscosity at low temperatures (up to -1002C), and and elimination of embrittlement in the process of production and operation of structures from these 70 sheets.

Table 1 shows the chemical composition of three melts of the proposed steel and the known steel. The steel compositions were selected in such a way as to evaluate the influence of molybdenum and nickel on the strength characteristics.

All melting was carried out in a vacuum induction furnace. The billet consisted of pure armco-iron and, depending on the version of the composition, nickel, ferromolybdenum, copper and other charge materials. After pumping out the furnace 72, until the necessary rarefaction was reached, the filling began to be melted. After complete melting and heating of the metal to a temperature of 1630-1650 °C, a degassing exposure was carried out, and then the necessary calculated amounts of metallic manganese, ferrovanadium and ferroniobium were introduced into the bath, and then deoxidizers: ferrosilicon, aluminum and ferrotitanium were added.

After bringing the temperature of the liquid steel to the required level (1560-1580 C), the metal was poured directly from the crucible to the mold without breaking the vacuum. The cooling of the cast ingots took place in the casting molds with the vacuum removed.

A total of 12 experimental melts were melted in a vacuum induction furnace according to the declared composition of steel. The chemical composition of the metal was analyzed for all melts, and based on its results, three melts with carbon equivalents equal to 0.37 were selected. p 29 At the same time, the carbon equivalent was determined by the formula: Го)

Mp o StnmoMeaM yat Mi Sy

S eq Sat 67777 yai-yi 6 gy 15 s zo Table 2 shows the properties of these melts in comparison with a melt of known composition, which also has a value of S eq-0.37. The presented results show that the steel of the declared composition has the necessary high ke, the level of strength characteristics in sections up to 50 mm in combination with high viscosity at low temperatures. su

At the same time, the ratio connecting the total content of nickel and manganese with the concentration of molybdenum and phosphorus for melts 1, 2 and C is 0.01, 0.0057 and 0.0064, respectively, and less than 0.03. so 35 and - h 4 You 11111110 005 0 both 00050005 From p. » du 01711111 0508 - you 00000000 05205 obi oo so yu bu 20 so sv o

Meledya 11111100 battle oz 0o50103 z: 0.01 0.0057 0.064 in MI'YEMY or s oo

AND

1 Mo b5 and y

Properties of steel

/ Melt (Cross section, mm Strength limit, Nmm? Yield limit, N/mm? Brittle-viscous transition temperature, C» 20/50 836/687 706/583 -90/-100 p 20/50 807/712 683 /600 -90/-100

Claims (1)

20/50 767/675 650/566 -90/-100 20/50 621/528 528/449 -80/-30 Formula of the invention A steel containing carbon, manganese, silicon, chromium, nickel, vanadium, niobium, titanium, aluminum, calcium, sulfur, phosphorus, nitrogen, copper, antimony, tin, arsenic and iron, which is distinguished by the fact that it additionally contains molybdenum, with the following ratio of components, wt. 90: carbon 0.02-0.11 manganese 0.10-1.80 silicon 0.06-0.60 chromium 0.005-0.30 nickel 0.005-1.00 vanadium 0.01-0.12 niobium 0.02-0 ,10 titanium 0.01-0.04 aluminum 0.01-0.05 c calcium 0.0005-0.008 o sulfur 0.0005-0.008 phosphorus 0.001-0.012 nitrogen 0.001-0.012 copper 0.005-0.25 c antimony 0.0001- 0.005 tin 0.0001-0.007 x, arsenic 0.0001-0.008 sem molybdenum 0.003-1.00 and (ee) iron the rest, M | what | - at the same time, the total content of nickel and manganese is related to the content of molybdenum and phosphorus by mass. 95 according to the following ratio: LAD r«boz « - tya o) c 16 z i Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2007, MZ, 15.03.2007. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - and (ee) ko (e)) so ko bo b5