PRODUCTION METHOD OF COLD-RESISTANT STEEL SHEETS

FIELD: metallurgy. ^ SUBSTANCE: invention concerns metallurgy field. For increasing cold-resistance and mechanical properties of welded structures, operating at temperatures from plus 120°C till minus 60°C in cross-sections till 160 mm, blank is heated higher then temperature Ac3, it is implemented...

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Main Authors PODTELKOV VLADIMIR VLADIMIROVICH, STOL'NYJ VIKTOR IVANOVICH, LEBEDEVA NADEZHDA VASIL'EVNA, SEREDA IRINA RICHARDOVNA, KARZOV GEORGIJ PAVLOVICH, BYKOVSKIJ NIKOLAJ GEORGIEVICH, GOLOVANOV ALEKSANDR VASIL'EVICH, BEREZHKO BORIS IVANOVICH, ROMANOV OLEG NIKOLAEVICH, OLENIN MIKHAIL IVANOVICH
Format Patent
LanguageEnglish
Russian
Published 10.11.2008
Subjects
ALLOYS
CHEMISTRY
FERROUS OR NON-FERROUS ALLOYS
GENERAL DEVICES FOR HEAT TREATMENT OF FERROUS OR NON-FERROUSMETALS OR ALLOYS
MAKING METAL MALLEABLE BY DECARBURISATION, TEMPERING OR OTHERTREATMENTS
METALLURGY
METALLURGY OF IRON
MODIFYING THE PHYSICAL STRUCTURE OF FERROUS METALS
TREATMENT OF ALLOYS OR NON-FERROUS METALS
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Summary:FIELD: metallurgy. ^ SUBSTANCE: invention concerns metallurgy field. For increasing cold-resistance and mechanical properties of welded structures, operating at temperatures from plus 120°C till minus 60°C in cross-sections till 160 mm, blank is heated higher then temperature Ac3, it is implemented its preliminary deformation at temperature 1000-850°C with summary draughting 65-75%, final deformation at temperature 750-700°C till requested sheet thickness with particular draughtings not less then 12% per pass at summary draughting not less then 60% and sheet is cooled at first with velocity more then 35°C/min till temperature 150±10°C, and then on open air and it is exposed to abatement at temperature 650±20°C with holding 1.0-1.5 min per mm of thickness with further cooling on open air. Blank is received from steel, containing wt %: carbon 0.07-0.09, manganese 1.30-1.60, silicon 0.50-0.70, chrome 0.05-0.20, nickel 0.05-0.10, vanadium 0.02-0.04, aluminium 0.020-0.040, niobium 0.02-0.04, copper 0.05-0.15, calcium 0.002-0.004, sulphur 0.002-0.005, phosphorus 0.005-0.010, nitrogen 0.006-0.008, and iron - the rest, at fulfillment of conditions: (chrome + nickel + copper) <= 0.40; (sulphur + phosphorus) <= 0.013; (manganese + niobium + vanadium)/(carbon + nitrogen) <=21, and fracture toughness index during welding (Pfr) <= 0.21. ^ EFFECT: increasing of cold-resistance and mechanical properties of welded structures. ^ 6 cl, 2 tbl, 1 ex
Bibliography:Application Number: RU20060131647