FIELD: metallurgy.
SUBSTANCE: invention relates to a sheet steel for a structural pipe product in the form of a tube or pipe. Sheet steel contains, wt%: C from 0.060 to 0.100; Si from 0.01 to 0.50; Mn from 1.50 to 2.50; Al 0.080 and less; Mo from 0.10 to 0.50; Ti from 0.005 to 0.025; Nb from 0.005 to 0.080; N from 0.001 to 0.010; O 0.0050 and less, P 0.010 and less, S 0.0010 and less, Fe and inevitable impurities are the rest. Ratio of Ti/N=2.5 and more to 4.0 and less, Ceq=C + Mn/6+ (Cu+Ni)/15 + (Cr+Mo+V)/5 (1), wherein Ceq=0.45 and more, X=(C+Mo/5)/Ceq (2), wherein X = less than 0.30 and Y=[Mo]+[Ti]+[Nb]+[V] (3), wherein Y=0.15 and more, each element symbol has a value of 0 in the absence of an element in the steel. Microstructure of the steel is formed from bainite and martensitic-austenitic component with a fraction of the surface area of less than 3.0 %, while the steel sheet has a tensile strength in the direction of rolling TSL of 760 MPa and more, and TSC – TSL value of 30 MPa or less, expressed as an absolute value, where TSC indicates the tensile strength in the direction orthogonal to the direction of rolling.
EFFECT: high strength in the direction of rolling and a slight difference between strength in the direction of rolling and strength in the direction perpendicular to the direction of rolling.
6 cl, 3 tbl
| Title |
Year |
Author |
Number |
| STEEL PLATES FOR CONSTRUCTION PIPES OR TUBES, STEEL PLATES FOR CONSTRUCTION PIPES OR TUBES MANUFACTURING METHOD, AND CONSTRUCTION PIPES OR TUBES |
2016 |
- Ota Shusaku
- Shimamura Junji
- Ishikawa Nobuyuki
- Endo Shigeru
|
RU2677554C1 |
| 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 |
| HOT-ROLLED SHEET STEEL FOR SMALL-DIAMETER FLEXIBLE TUBING AND ITS MANUFACTURING METHOD |
2019 |
- Kimura Hideyuki
- Kawamura Shuji
- Sugimoto Ichiro
- Asai Makoto
- Yokota Takeshi
|
RU2753344C1 |
| 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, Kiono
- Mizuno, Dajsuke
- Nakamiti, Kharuo
- Isikava, Nobuyuki
|
RU2653740C2 |
| HOT-ROLLED STEEL SHEET FOR THICK-WALLED HIGH-STRENGTH MAIN PIPELINE, WELDED STEEL PIPES FOR THICK-WALLED HIGH-STRENGTH MAIN PIPELINE AND METHOD OF WELDED STEEL PIPE MANUFACTURING |
2017 |
- Goto Sota
- Nakata Hiroshi
- Shimamura Junji
|
RU2699381C1 |
| METHOD OF PRODUCING THICK-WALL PIPE STEEL |
2015 |
- Salganik Viktor Matveevich
- Chikishev Denis Nikolaevich
- Pustovojtov Denis Olegovich
- Stekanov Pavel Aleksandrovich
|
RU2583973C1 |
| 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 |
| HIGH-STRENGTH STEEL HAVING EXCELLENT LOW-TEMPERATURE VISCOSITY AND EXCELLENT VISCOSITY IN THERMALLY AFFECTED ZONE OF WELDING JOINT (OPTIONS), METHOD FOR MANUFACTURING SUCH STEEL, METHOD FOR MANUFACTURING SHEET FROM INDICATED STEEL, HIGH-STRENGTH STEEL TUBE (OPTION), AND A METHOD FOR MANUFACTURING HIGH-STRENGTH STEEL TUBE |
2003 |
- Khara Takuja
- Asakhi Khitosi
|
RU2258762C2 |
| METHOD OF MAKING STRIPS FROM LOW-ALLOY STEEL |
2012 |
- Kazakov Igor' Vladimirovich
- Molostov Mikhail Aleksandrovich
- Denisov Sergej Vladimirovich
- Vasil'Ev Ivan Sergeevich
- Nastich Sergej Jur'Evich
- Morozov Jurij Dmitrievich
- Zin'Ko Bronislav Filippovich
|
RU2519720C2 |
| 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 |
