FIELD: metallurgy. SUBSTANCE: invention relates to composites of heat-resistant low-carbon chrome- -nickel alloys of austenite class. Invention proposes heat-resistant alloy comprising components taken in the following ratio, wt. -%: carbon, 0.06-0.10; silicon, 0.0005-0.65; manganese, 0.0005-0.74; chrome, 19.0-23.0; nickel, 30.0-34.0; titanium, 0.25-0.80; aluminum, 0.0005-0.45; vanadium, 0.0005-0.10; tungsten, 0.0005-0.10; iron, the balance. Content of sulfur, phosphorus, lead, tin, arsenic, zinc, molybdenum and copper in heat-resistant alloy does not exceed the following values, wt. -%: sulfur, 0.02; phosphorus, 0.03; lead, 0.01; tin, 0.01; arsenic, 0.01; zinc, 0.01; molybdenum, 0.5 and copper, 0.2. The following conditions must be maintained simultaneously: % Ni + 32 % C + 0.6 % Mn + % Cu = 33.10504-37.844%; % Cr + 3% Ti + % V + % Mo + 1.6% Si + % W = 19.7518-25.18226. Invention can be used in making reaction tubes of petroleum-gas-processing devices working at temperature 700-950 C under pressure below 50 atm. Invention provides increase average grains size and enhancement of uniformity of alloy structure. EFFECT: enhanced heat resistance of alloy. 3 cl
Title | Year | Author | Number |
---|---|---|---|
HEAT-RESISTANT ALLOY | 2000 |
|
RU2194784C2 |
HEAT-RESISTANT ALLOY | 2000 |
|
RU2194789C2 |
HEAT-RESISTANT ALLOY | 2000 |
|
RU2194786C2 |
HEAT-RESISTANT ALLOY | 2000 |
|
RU2194788C2 |
REFRACTORY ALLOY | 1998 |
|
RU2149211C1 |
REFRACTORY ALLOY | 1998 |
|
RU2149210C1 |
REFRACTORY ALLOY | 1998 |
|
RU2149208C1 |
REFRACTORY ALLOY | 1998 |
|
RU2149212C1 |
REFRACTORY ALLOY | 1998 |
|
RU2149203C1 |
REFRACTORY ALLOY | 1998 |
|
RU2149209C1 |
Authors
Dates
2002-12-20—Published
2000-06-15—Filed