Austenitic steel

Alloys or metallic compositions – Ferrous – Nine percent or more chromium containing

Reexamination Certificate

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Details Austenitic steel Austenitic steel

: 2002-02-06
: 2004-08-31
: Yee, Deborah (Department: 1742)
: Alloys or metallic compositions
: Ferrous
: Nine percent or more chromium containing

: C148S325000
: Reexamination Certificate
: active
: 06783727
: ABSTRACT:

FIELD OF THE ART
The present invention relates to the field of metallurgy, and more particularly to corrosion-resistant and wear-resistant steel.
PRIOR ART
Various kinds of steel are known in the art, that are used in the manufacture of products related to medical engineering, e.g., prostheses, implants, medical tools, and the like. Steels used for the indicated purpose must meet definite requirements both from the standpoint of the interaction of products made from such steels with human organism and from the standpoint of the physico-mechanical characteristics thereof.
However, the strength and wear-resistance of the known steels used for medical purposes are not sufficient, and therefore prostheses, implants, and medical tools manufactured from the known steels cannot insure the required safety and reliability in the course of their operation and rapidly wear out. In the case of prolonged contact with human tissues the known steels used for medical purposes induce allergic reactions of human organism.
To the category of steels used for medical purposes there belong corrosion-resistant austenitic steels described in the International Translator of Modern Steels and Alloys (Prof. V. S. Kershenbaum (Ed.), “International Engineering Encyclopedia” Series, Moscow, 1992 (in Russian)), for instance, steel grade AISI 316H (USA), containing 0.04-0.10% by weight of carbon, 16.0-18.0% by weight of chromium, 10.0-14.0% by weight of nickel, 2.03.0% by weight of molybdenum, 1.0% by weight or less of silicon, 2.0% by weight or less of manganese, 0.03% by weight or less of sulfur, the balance being iron, or steel grade DIN 17440 (DE), containing not more than 0. 1% by weight of carbon, not more than 1.0% by weight of silicon, not more than 2.0% by weight of manganese, not more than 0.045% by weight of phosphorus, not more than 0.03% by weight of sulfur, 16.5-18.5% by weight of chromium, 12.0-14.0% by weight of nickel, less than 5.0% by weight of titanium and 2.0-3.0% by weight of molybdenum.
Said steels have a single-phase austenitic structure, but they contain an appreciable amount of critical and costly nickel which, among other things, may induce allergic reactions in human organism when said steels are used for medical purposes; furthermore, said steels contain manganese which reacts with human blood.
Besides, said steels have a low strength (&sgr;
B
being less than 520 MPa, &sgr;
0.2
being less than 250 MPa) and an insufficient wear-resistance, so that they fail to meet the requirements to the materials for products to be used in medical engineering.
Closest in its chemical composition to the steel of the present invention is the corrosion-resistant steel described in EP No. 0123054, 06.05.1987. This steel contains, in % by weight: carbon, from 0.01 to 0.5; chromium, from 3.0 to 45.0; niobium, up to 10.0; silicon, up to 2.0; manganese, up to 0.10; molybdenum, up to 10.0; vanadium, up to 5.0; titanium, niobium and/or tantalum, up to 2.0; cerium, up to 1.0; aluminum, up to 0.3; nitrogen, from 0.2 to 5.0; iron, the balance.
Said steel has an austenitic-ferritic structure and is magnetizable. At 400° C. said steel has the yield point R
p 0.2 (&sgr;0.2)
less than 400 N/mm
2
and at 600° C. it has the yield point R
p 0.2 (&sgr;0.2)
less than 250 N/mm
2
. The described steel is intended, owing to its heat resistance, for manufacturing gas and steam turbines.
The above-indicated steel is not suitable for manufacturing products to be used in medical engineering, because, in the first place, its structure comprises at least 50% of ferromagnetic components able to react with human blood containing iron ions; in the second place, said steel contains manganese and nickel which induce allergic reactions when in contact with human tissues.
DISCLOSURE OF THE INVENTION
The present invention is directed to the provision of a nonmagnetic steel which has a high mechanical strength, high corrosion and wear resistance, plasticity and is inactive with respect to human tissues.
Said object is accomplished in the provision of a steel containing carbon, chromium, silicon, manganese, nitrogen and iron, which steel, according to the invention, contains said 10 components in the following relationship, % by weight:
carbon
from 0.01 to 0.04
chromium
from 21.00 to 24.00
silicon
from 0.25 to 0.65
manganese
from 0.25 to 0.70 15
nitrogen
from 1.00 to 1.40
iron
the balance,
the total content of ferrite-forming components in the steel, namely, of silicon and chromium, and the total content of aus-tenite-forming components therein, namely, of carbon, nitrogen 20 and manganese, obeying the following condition:
0.48
⁢
[Si]
+
[Cr]
30
⁢
[C]
+
18
⁢
[N]
+
0.01
⁢
[Mn]
=
from
⁢

⁢
0.8
⁢

⁢
to
⁢

⁢
1.3
,
where [Si], [Cr], [C], [N], [Mn] is the content in the steel of silicon, chromium, carbon, nitrogen, and manganese, respectively, expressed in % by weight.
According to the invention, the proposed steel has a single-phase austenitic structure, the yield point 00.2 from 700 to 900 MPa, the breaking point &sgr;
B
from 1100 to 1250 MPa, obtained after water quenching at a temperature of from 1190 to 1230° C. or obtained after water quenching at a temperature of from 1190 to 1230° C. and subsequent tempering at a temperature of from 400 to 430° C. for 3 to 3.5 hours with subsequent cooling in air.
Owing to the invention, the claimed nonmagnetic steel having a single-phase structure possesses a high mechanical strength, high corrosion- and wear-resistance, plasticity, and is inactive with respect to human tissues.
Th Further objects and advantages of the claimed invention will become clear from the following detailed description of the proposed austenitic steel and examples of its particular composition.
A nonmagnetic steel with the single-phase austenitic structure has been developed, that has a high mechanical strength, plasticity, corrosion- and wear-resistance, suitable for the manufacture of products to be used in medical engineering, for instance, prostheses, implants, medical tools, and the like.
THE BEST MODE FOR CARRYING OUT THE INVENTION
The steel claimed in the present invention contains from 0.01 to 0.04% by weight of carbon, from 21.00 to 24.00% by weight of chromium, from 0.25 to 0.65% by weight of silicon, from 0.25 to 0.70% by weight of manganese, from 1.00 to 1.40% by weight of nitrogen, the balance being iron, the total content of ferrite-forming components in the steel, namely, of silicon and chromium, and the total content of austenite-forming components therein, namely, of carbon, nitrogen and manganese, obeying the following condition:
0.48
⁢
[Si]
+
[Cr]
30
⁢
[C]
+
18
⁢
[N]
+
0.01
⁢
[Mn]
=
from
⁢

⁢
0.8
⁢

⁢
to
⁢

⁢
1.3
,
where [Si], [Cr], [C], [N], [Mn] is the content in the steel of silicon, chromium, carbon, nitrogen, and manganese, respectively, expressed in % by weight.
The results of our investigations have shown that with the content of nitrogen in the steel less than 1.0% by weight, homogeneous y-solid solution (austenite) cannot be obtained in its structure, whereas with the content of nitrogen exceeding the claimed 1.4% by weight the conditions of melting and working the steel become complicated; the presence of nitrogen in the specified amount makes it possible to increase the yield point of the steel by as much as 2 to 3 times and to rule out introducing nickel and manganese, added heretofore to steel for these purposes, these additives inducing allergic reactions when in contact with human tissues. The content of chromium in the claimed amount of from 21.00 to 24.00% by weight increases the corrosion resistance of the steel, and under the indicated melting conditions the solubility of nitrogen can be increased eight-fold. It is difficult to attain the content of carbon in the steel less than the claimed 0.01% by weight without additional metallurgical operations, which make the steel appreciably more

Affiliated with

Bannykh Oleg Alexandrovich

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Blinov Viktor Mikhailovich

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Dymov Alexei Viktorovich

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Kalinin Grigory Jurievich

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Kostina Maria Vladimirovna

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Also associated with

Institut Metallurgii I Materialovedenia Imeni A.A. Baikova Rossi

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Ladas & Parry

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Yee Deborah

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