SU106160A1 - Low alloy structural steel for critical parts - Google Patents

Description

For the manufacture of machine parts, nickel, nickel-chromium or more complex in composition steel are used, whose consumption due to the rapid growth of machine-building industry is continuously increasing. Cementing steels 12HNZA, 12H2N4A, 18KhNVA and others are widely used in the responsible engineering industry, and in a number of parts these steels can be freely replaced by less alloyed steel without damage to strength.

Offered boron containing chromo-manganese -. Nickel-titanium co-structural steel 15Х2ГН2ТРА has the following chemical composition (in%): carbon 0.12-0.18; manganese 0.7-1.2; silicon 0.17-0.37; chromium 1.4-1.9; nickel 1.4-1.8; titanium 0.06-0.12; boron to 0.006.

This steel differs from well-known steel grades in its composition and combination of the input of its elements.

According to the technology of smelting, forging, rolling and machining we offer steel 15H2GN2TRA

no different from other lightweight construction steels.

The critical points of this steel are as follows:

AsAsz

710-730 ° 760-775 °

360-565 ° 470-620 °

The low value of the Asz point allows hardening cemented products made from this steel with the temperatures commonly used for steel grades 12HNZA and 12X2H4A.

Guaranteed mechanical properties of steel 15H2GN2TRA

(Quenching at 790-840 °; tempering in oil 150-170 °)

Hardness ar -3,4-3,1.

The proposed steel is not prone to non-heating and is resistant to the long-term effects of cementation temperatures. The sensitivity to incision in the proposed steel is somewhat less than that of steel 18ХНВА.,.

Steel is well cemented both in a solid carburizer and in a gaseous medium. The hardness of the cemented layer after quenching with temperatures of 800-820 ° in oil and tempering at 170 ° is within 60-Q R s. The cemented layer has a satisfactory structure; residual austenite is practically absent, while the duration of cementation of the proposed steel does not differ from the duration of cementation of steel 12HNZA.

Steel 15H2GN2TRA is well cyanated according to the modes adopted for steel grade 12HNZA.

The endurance limit of steel 15H2GN2TRA obtained on smooth and notched specimens has the following meanings: for smooth specimens - more than 55 kg1 mm

(quenching from 820 ° and tempering at 170 °) for notched samples more than 35

for smooth cemented samples - more than 80 (quenching from 820 ° and tempering at 170 °) for cemented samples with a notch - more than 58 kg1mm-.

Steel grade 15Х2ГП2ТРА has good hardenability: when the boron content in it is within the range of 0.001-0.006%, the hardenability of the steel is provided in the section with a diameter of 80 mm n more.

Due to good hardenability and a successful combination of mechanical properties, steel grade 15Х2ГН2ТРА can be fully used instead of steel grade 12ХНЗА, 12Х2Н4А И.18ХНВА.

Replacing these steels with 15Х2ГП2ТРА steel results in significant savings in nickel, which determines the industrial utility of the latter.

As a result of the research on steel 15H2GN2TRA, the following technological regimes were established:

a) forging interval 1200-850 °;

b) pre-thermal processing-normalization at 880-940 ° with high tempering or annealing;

c) cementation at 900-920 °;

g) final heat treatment: quenching from 850 ° in oil and tempering at 150-G80 °, quenching cemented products from 800-820 ° in oil and tempering 150-180 °.

Subject invention

The alloyed structural steel for the manufacture of critical parts, contains, and carbon, manganese, silicon, chromium, nickel, titanium, and boron, which is used to reduce the cost of steel. percent: carbon 0.12-0.18; manganese 0.7-1.2; silicon 0.17-0.37; chromium 1.4-1.9; nickel 1.4-1.8; titanium 0.06-0.12 and boron to 0.006.