SU1502654A1 - Structural steel - Google Patents

Abstract

The invention relates to the field of metallurgy, in particular, to the composition of structural alloyed steel with enhanced characteristics of hardenability, fatigue strength, resistance to wear and impact loads used to manufacture axle boxes, gears, gear shafts, cam couplings, dies and sprays. The purpose of the invention is to increase the ultimate strength, fatigue strength, heat resistance, hardness, fracture toughness, hardenability, wear resistance, elastoplastic properties at temperatures up to 850 ° C, and service resistance of steel. Steel additionally contains tungsten, zirconium carbonitrides, tellurium and magnesium in the following ratio, wt.%: Carbon 0.32-0.45, silicon 1.15-2.15, manganese 0.15-0.75, titanium 0, 15-0.52, niobium nitrides 0.03-0.23, aluminum 0.02-0.07, boron 0.003-0.07, calcium 0.03-0.07, barium 0.002-0.006, tungsten 0.26 -0.93, zirconium carbonitrides 0.18-0.37, tellurium 0.003-0.008, magnesium 0.008-0.016, iron the rest. 2 tab.

Description

I

(21) 4385074 / 31-02

(22) 02.26.88

(46) 08.23.89. Bup. No. 31

(71) All-Union Correspondence Polytechnic Institute

(72) B.K.Sv tkin, M.I. Karpenko, E.I. Marukovich, Yu.G.Serebrkov

and V.S. Podmoskovny

(53) 669.14.018.29-194 (088.8)

(56) Japanese Application No. 61-96028, cl. C 22 C 38/54, 1986.

USSR author's certificate # 1170001, cl. C 22 C 38/06, 1985.

(54) CONSTRUCTION STEEL

(57) The invention relates to the field of metallurgy, in particular, to the composition of structural alloyed steel with enhanced characteristics of hardenability, fatigue strength, resistance to wear and impact loads used to manufacture axle boxes, gears, gear shafts, cam clutches, dies and sprayers. The purpose of the invention is to increase the ultimate strength, fatigue strength, heat resistance, hardness, fracture toughness, hardenability, wear resistance, elastoplastic properties at temperatures up to 850 ° C, and service life of steel. The steel additionally contains tungsten, zirconium carbonitrides, tellurium and magnesium in the following ratio, wt.%: Carbon 0.32-0.45, silicon 1.15-2.15, manganese 0.15-0.75; titanium 0.15-0.52; niobium nitrides 0.03-0.23; aluminum 0.02-0.07; boron 0.003-0.07; calcium 0.03-0.07; barium 0.002- 0.006; tungsten 0.26-0.93; zirconium carbonitride 0.18-0.37; tellurium 0.003- 0.008; magnesium 0.008-0.016; iron - the rest. 2 tab.

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This invention relates to the field of metallurgy, in particular, to the composition of structural alloyed steel used for the manufacture of axle boxes, gear wheels, gear shafts, cam couplings, dies and sprays.

The purpose of the invention is to increase the ultimate strength, fatigue strength of heat resistance, hardness, fracture toughness, hardenability, wear resistance of elastoplastic properties at temperatures up to 850 ° C, and service resistance of steels.

Table 1 shows the chemical compositions of the proposed and known steels.

The physicomechanical tests and studies of the elastoplastic properties and structure of the steels are carried out after the machining of castings and samples and their high-temperature cementation according to the following conditions: cementation in a fluidized bed furnace for 2.54 hours with the addition of 15% raw natural gas with subsequent cooling on the air and vacation in Ki605 C

In the first layer, at L o C for J h and for 2 h.

Technological and mechanical tests are carried out by standard methods, impact viscosity according to GOST,

Wear resistance tests were carried out on samples with a diameter of 40 mm at

rolling friction with slippage without Q ty, fracture viscosity, hardening lubricant on an MN-1M machine at specific pressure at the point of contact of the test pair 400 MPa and rotation speed of standards 400 rpm, which corresponds to the working loads on gears, 5

bridges, wear resistance, elastoplastic properties at temperatures up to operational durability, it additionally contains tungsten, zirconium carbonitrides, tellurium and magnesium in the following ratio of components, wt,%:

The operational durability is determined on the stands by testing the sprayers at.

Fatigue strength is determined on samples with a working part of 8 mm in diameter with deep incisions of the hyperbolic profile on the VMP-10000 magazine with clean bending by rotating at a frequency of 83 rpm, the test base is 510 cycles,

The physicomechanical properties of the steels after heat and chemical treatment are presented in Table 2.

The use of steel will increase the operational durability of the equipment.

Claims (1)

The invention of structural steel containing carbon, silicon, manganese, titanium, niobium nitrides, aluminum, boron, calcium, barium, iron, is different from the fact that, in order to increase the strength, fatigue strength, heat resistance, solid-state, hardened spine, elastoplastic temperature to high resistance, contains tungsten, or tellurium and magnetically composite one 0.32-0.45 1.15-2, 15 O, 15-0.75 O, 15-0.52 0.03-0.23 0.02-0.07 0.003-0.07 0.03-0.07 0.002-0.006 0.26-0.93 0.18-0.37 0.003-0.008 0.008-0.016 Else Known steel 860 363 -ilO 500 6.5 AO 631004,45,05,8 We offer stpl 1630 620 1020 536 11.8 100 821460,60,70,9 1686. 660 1080 544 12.2 114 951550,30,40,6 1720 688 1090 550 12.3 130 981620,10,20,3 Compiled by E.Rysakova Editor A.Shandor Tekhred L.OliynykKorrektor O. Tsiple Order 5049/37 Circulation 576 VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, Raushsk n., 4/5 t d b; i and c a 2 Subscription