FIELD: metallurgy.
SUBSTANCE: invention relates to the field of metallurgy, namely to steel plate material used for the manufacture of major pipeline pipes. Material has a chemical composition, including, mass %: C: 0.030–0.100, Si: 0.01–0.50, Mn: 0.5–2.5, P: 0.015 or less, S: 0.002 or less, Cu: 0.20–1.00, Mo: 0.01 or less, Nb: 0.005–0.05, Ti: 0.005–0.040, Al: 0.10 or less, N: 0.007 or less, the rest – Fe and unavoidable impurities, and a metallographic structure including ferrite, bainite and a martensitic-austenite component, the share of martensite-austenite component is 0.5–5.0 %, and the difference in hardness between ferrite and bainite is 60 or more in units of Vickers hardness.
EFFECT: high resistance to stress aging and hydrogen attack, a uniform elongation of 9 % or more, and a yield strength to strength ratio of 90 % or less are provided.
6 cl, 1 ex, 3 tbl
| Title |
Year |
Author |
Number |
| STEEL FOR HIGH-DEFINITION PIPES OF MAJOR PIPELINES WITH STRESS AGING AND HYDROGEN ATTACK HIGH RESISTANCE, METHOD FOR THEIR MANUFACTURING AND WELDED STEEL PIPE |
2015 |
- Yasuda, Kyono
- Mizuno, Daisuke
- Nakamichi, Haruo
- Ishikawa, Nobuyuki
|
RU2653031C2 |
| PLATE STEEL FOR HIGH-STRENGTH AND HIGH IMPACT STRENGTH OF STEEL PIPES AND METHOD FOR PRODUCTION OF PLATE STEEL |
2017 |
- Kimura Hideyuki
- Nagao Ryo
- Ishikawa Nobuyuki
- Hase Kazukuni
|
RU2698036C1 |
| PLATE STEEL FOR MAIN PIPE AND MAIN PIPE |
2014 |
- Sinokhara, Yasukhiro
- Khara, Takuya
- Fudzisiro, Taisi
- Doi, Naoki
- Ayukava, Naosi
- Yamasita, Eidzi
|
RU2623569C1 |
| PLATE STEEL CHARACTERISED BY LOW RATIO BETWEEN YIELD POINT AND LIMIT STRENGTH, HIGH STRENGTH AND HIGH IMPACT STRENGTH, AND METHOD FOR ITS MANUFACTURE |
2010 |
- Simamura Dzundzi
- Isikava Nobujuki
- Sikanaj Nobuo
|
RU2496904C1 |
| SHEET STEEL FOR A THICK-STRENGTHEN HIGH-STRENGTHENING PIPE THREADING WITH EXCELLENT RESISTANCE TO ACID ENVIRONMENT, RESISTANCE TO SMOKE AND LOW-TEMPERATURE VISCOSITY AND ALSO A MAIN PIPE |
2014 |
- Khara, Takuya
- Fudzisiro, Taisi
- Sinokhara, Yasukhiro
- Tsuru, Ejdzi
|
RU2637202C2 |
| HIGH-STRENGTH PLATE STEEL FOR MAIN PIPES RESISTANT TO HIGH-SULFUR OIL GAS, AND METHOD OF ITS PRODUCTION, AND HIGH-STRENGTH STEEL PIPE USING HIGH-STRENGTH PLATE STEEL FOR MAIN PIPES RESISTANT TO HIGH-SULFUR OIL GAS |
2017 |
- Yasuda Kyono
- Yokota Tomoyuki
|
RU2735605C1 |
| THERMOMECHANICAL PROCESSING METHOD |
2019 |
- Khotinov Vladislav Alfredovich
- Farber Vladimir Mikhajlovich
- Polukhina Olga Nikolaevna
- Morozova Anna Nikolaevna
- Selivanova Olga Vladimirovna
- Shchapov Gennadij Valerevich
|
RU2735308C1 |
| PLATE STEEL CHARACTERISED BY LOW RATIO BETWEEN YIELD POINT AND ULTIMATE STRENGTH, HIGH STRENGTH AND HIGH UNIFORM RELATIVE ELONGATION, AND METHOD FOR ITS MANUFACTURE |
2010 |
- Simamura Dzundzi
- Isikava Nobujuki
- Sikanai Nobuo
|
RU2502820C1 |
| HIGH STRENGTH SHEET STEEL HAVING LOW RATIO OF YIELD STRENGTH TO TENSILE STRENGTH, EXCELLENT AS OF RESISTANCE TO POST-DEFORMATION AGING, METHOD OF ITS PRODUCTION AND HIGH STRENGTH WELDED STEEL PIPE MADE THEREOF |
2013 |
- Simamura, Dzundzi
- Nisimura, Kimikhiro
|
RU2623562C2 |
| METHOD OF HOT ROLLED SHEETS MANUFACTURING FROM K60 DURABILITY CLASS LOW-ALLOYED STEEL WITH THE THICKNESS OF UP TO 40 mm |
2018 |
- Matrosov Maksim Yurevich
- Sakharov Maksim Sergeevich
- Sychev Oleg Nikolaevich
- Lipin Vitalij Klimovich
- Mikheev Vyacheslav Viktorovich
- Chebykin Mikhail Pavlovich
- Nikonov Sergej Viktorovich
- Mishnev Petr Aleksandrovich
- Mitrofanov Artem Viktorovich
- Gavrilova Anastasiya Gennadevna
|
RU2675891C1 |
