• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention provides a steel (or a steel article such as a fastener for use in an explosive-powered fastener- driving tool) which is both tough and strong, economically, and comprises: 0.50 to 1.00% carbon 0.10 to 1.50% silicon 0.25 to 1.50% manganese up to 0.045% phosphorus up to 0.045% sulphur 0.20 to 0.90% molybdenum and/or 0.20 to 2.00% chromium, the remainder being iron, possible slight-alloying elements and impurities, having been subjected to a bainite hardening treatment in the region of or at temperatures above the martensite point in the range 0 to 100 DEG C above said point, until a maximum transformation of 85% has been achieved. The invention provides, also, a corresponding method.
    公开号:SU1232147A3
    申请号:SU792753403
    申请日:1979-04-20
    公开日:1986-05-15
    发明作者:Листеманн Петер;Ритт Вальтер;Жалац Райнхольд;Сегецци Ханс-Дитер
    申请人:Хилти Аг (Фирма);
    IPC主号:
    专利说明:


    This invention relates to the heat treatment of steel, in particular to hardening of steel by quenching.
    The purpose of the invention is to increase viscosity while maintaining strength.
    For the manufacture of products subjected to isothermal hardening, spring steel are most suitable
    1, for example, containing, wt.%:



    Low alloyed tool steels are also suitable, for example steel containing,%: C 1.0, Si 0.3, Mp 0.3 and Cg 1.5, as well as tool carbon steels, for example, containing, in wt.%:

    0.25-0.50 0.6-0.8 0.90 0.6-0.8 0.25 0.6-0.8 of these steels, the starting point of the martensitic transformation lies in the interval of 180-230 s. For high viscosity while maintaining strength
    the steel is subjected to isothermal hardening; bolts and nails are fabricated, which are not fixed to bainite. It has been established that the degree for the similar mode is subjected to isothermal hardening. In the case of solid bainitic transformations, the HRC
    58 products are delayed by 90 percent, which indicates
    by 75-85%. Since the bainite transformation in steel is associated with 45 high viscosity steel.
    with an increase in the length, the degree of transformation. Example 3. From the wire of setting, it is established by dilatometric composition of steel in Example 1
    by measuring the samples at the appropriate temperature of the medium in which the isothermal holding is carried out. Accordingly, the formation of, for example, 80% bainite means 80% of the maximum change in the length of the sample obtained with a full bainitic PRINCIPLE. Order 2667/61 Circulation 552
    Subscription
    Random polygons pr-tie, Uzhgorod, st. Project, 4
    0
    s
    rotation at isothermal temperature.
    The drawing shows the value of toughness in the isothermal transformation of steel in the bainite region. The steel toughness is estimated by the impact (j) performance measured on a circular specimen without a notch with a diameter of 4.5 mm.
    The maximum value of viscosity is reached at top-up in an environment with a temperature above the point Mn of 5-50 ° C to form 75-85% bainite. The hardness of steel is equal to HEC 58. The proposed method can be used in the manufacture of fasteners (screws, bolts, nails, dowels, rivets), tools (drills, screwdrivers, saws, mandrels, punches), machine parts (valves, guide valves, piston rings, shafts, fingers, as well as in the manufacture of semi-finished products (strip, wire, pipe sheet and others).
    Example 1. Isothermal
    5 hardening is subjected to samples of wire with a diameter of 4.5 mm and a length of 30 mm from steel containing,%: C 0.73, Mn-0.85, Si 0.2 and Mo 0.29 (the beginning point of the martensitic transformation is equal to
    30 220 C). Cold chickpea wire. After annealing has a strength of 800 MPa. Sample hardening is carried out according to the mode of heating up to 860 ° C, cooling in an environment with a temperature of 240 ° C for 20 minutes,
    35 then in air for 40 minutes. After quenching, steel has a hardness of HRC 58, impact work 79.5-82 j.
    Example 2. From the wire specified in example 1, the steel composition
    bolts and nails are fabricated, which is isothermally quenched in a similar manner. At HRC hardness
    58 products are delayed by 90 percent, which indicates
    wind in the spring with a diameter of 80 mm, which is subjected to isothermal hardening according to analogs 4 modes.
    Treated springs have high viscosity while maintaining high hardness, which ensures their increased durability.
    Subscription
    权利要求:
    Claims (1)
    [1]
    METHOD FOR ISOTHERMAL HARDENING OF STEEL, including heating to austenitizing temperature, holding, cooling in a medium with a temperature above the point Mn, holding and cooling in air, characterized in that, in order to increase the viscosity while maintaining strength, holding is carried out in a medium with a temperature of round the point Mn by 5-5 ° C until the formation of 75-85 £ bainite.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1232147A3|1986-05-15|Method of isothermal hardening of steel
    CN101233247B|2011-07-06|Steel members, method for heat treatment of the same, and process for production thereof
    US9797045B2|2017-10-24|Steel for carburizing, carburized steel component, and method of producing the same
    US9796158B2|2017-10-24|Steel for carburizing, carburized steel component, and method of producing the same
    RU2201468C2|2003-03-27|Steel for manufacture of part by cold plastic deformation and method of manufacture of such part
    EP0896068A1|1999-02-10|Bainite hardening
    KR950006006A|1995-03-20|Steel for manufacturing machine, excellent in machinability, cold forging and fatigue strength characteristics after quenching and tempering
    WO2008156295A2|2008-12-24|High strength and toughness spring having excellent fatigue life, steel wire rod and steel wire for the same and producing method of said steel wire and spring
    JPH09170017A|1997-06-30|Production of steel plate with high strength and high toughness
    CN106929756B|2020-03-17|Bearing steel and preparation method thereof
    CN109487061B|2020-07-07|Heat treatment method of martensite precipitation hardening stainless steel 06Cr15Ni5Cu2Ti
    US20140182414A1|2014-07-03|Steel for induction hardening and crankshaft manufactured by using the same
    JP3478381B2|2003-12-15|Manufacturing method of non-heat treated forging with excellent machinability and fatigue strength after compression
    JP4757831B2|2011-08-24|Induction hardening part and manufacturing method thereof
    JPH09242763A|1997-09-16|Manufacture of rolling bearing
    Maisuradze et al.2017|Phase transformations in D6AC steel during continuous cooling
    US6123785A|2000-09-26|Product and process for producing constant velocity joint having improved cold workability and strength
    US2914401A|1959-11-24|Alloy steel
    JPH10183296A|1998-07-14|Steel material for induction hardening, and its production
    RU2760140C1|2021-11-22|Method for producing low-carbon martensitic steel
    JPH09195000A|1997-07-29|Non-heat treated steel
    SU1731839A1|1992-05-07|Method of thermal and mechanical treatment of products
    JP3579879B2|2004-10-20|Warm forging steel excellent in induction hardenability and machinability, induction hardened part using this steel, and method of manufacturing this induction hardened part
    JPH10237589A|1998-09-08|Martensitic non-heat treated steel excellent in machinability and having high strength and high toughness, and its production
    SU1717647A1|1992-03-07|Heat treatment of structural steel featuring reversible tempering embrittlement
    同族专利:
    公开号 | 公开日
    SE449229B|1987-04-13|
    FR2423549A1|1979-11-16|
    BR7902454A|1979-10-30|
    FI69121B|1985-08-30|
    GB2019436B|1983-02-16|
    ATA241979A|1984-04-15|
    JPS54141313A|1979-11-02|
    SE7903448L|1979-10-22|
    CH646199A5|1984-11-15|
    NO153933C|1986-06-18|
    DK155053C|1989-06-19|
    YU40746B|1986-04-30|
    GB2019436A|1979-10-31|
    FI69121C|1985-12-10|
    JPS6312934B2|1988-03-23|
    NL7901840A|1979-10-23|
    ES479774A1|1979-11-16|
    NO153933B|1986-03-10|
    DE2817628A1|1979-10-25|
    DE2817628C2|1985-08-14|
    FR2423549B1|1985-08-23|
    BE875730A|1979-08-16|
    PL215033A1|1980-01-14|
    IT1112992B|1986-01-20|
    AU4562579A|1979-10-25|
    FI790666A|1979-10-22|
    AT393279B|1991-09-25|
    ZA791422B|1980-04-30|
    NL191388B|1995-02-01|
    NL191388C|1995-07-03|
    YU80279A|1983-02-28|
    NO791296L|1979-10-23|
    DK155053B|1989-01-30|
    CA1137337A|1982-12-14|
    PL136257B1|1986-02-28|
    IT7921467D0|1979-03-30|
    AU527551B2|1983-03-10|
    DK162779A|1979-10-22|
    CS211362B2|1982-02-26|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB517118A|1938-07-13|1940-01-22|Ver Oberschlesische Huttenwerk|Improvements in and relating to improved steels and the application thereof|
    DE973413C|1944-05-31|1960-02-11|Gussstahlwerk Witten Ag|Process to achieve a hardness of at least 54RC with high impact resistance|
    US2914401A|1958-02-24|1959-11-24|Crucible Steel Co America|Alloy steel|
    US3155550A|1961-09-15|1964-11-03|United States Steel Corp|Heat treatment of chromium-free steel bearings|
    DE1558505A1|1967-01-23|1970-04-16|Hilti Ag|Anchoring means|
    SE342475B|1969-03-31|1972-02-07|Sandvikens Jernverks Ab|EP0020357B1|1978-11-15|1984-07-18|Caterpillar Tractor Co.|Lower bainite alloy steel article|
    JPS5970724A|1982-10-15|1984-04-21|Seiko Instr & Electronics Ltd|Rolled hot-forged thread|
    JPH0545660B2|1984-11-29|1993-07-09|Honda Motor Co Ltd|
    JPH01268245A|1988-04-19|1989-10-25|Fujitsu Ltd|Changeover control circuit|
    US4960473A|1989-10-02|1990-10-02|The Goodyear Tire & Rubber Company|Process for manufacturing steel filament|
    SE510344C2|1997-08-01|1999-05-17|Ovako Steel Ab|Way for complete bainite hardening of steel|
    NL1011806C2|1999-04-15|2000-10-17|Skf Engineering & Res Services|Ball bearing steel with a surface with an underbainitic structure and a method of manufacturing it.|
    DE202005015611U1|2005-09-30|2005-12-29|Textron Verbindungstechnik Gmbh & Co. Ohg|Bolts or screws with high rigidity are made from steel wire by hot rolling and cooling glowing product by blowing on air, then rolling out and cold-forming to produce head and thread|
    FR2916371B1|2007-05-24|2010-02-26|Fwu Kuang Entpr Co Ltd|PROCESS FOR PREPARING FORGED PARTS HAVING EXCELLENT TRACTION RESISTANCE AND ELONGATION FROM STEEL MAMINERY WIRES|
    DE102008041391A1|2008-08-20|2010-01-14|Kamax-Werke Rudolf Kellermann Gmbh & Co. Kg|High strength bolt has bainite structure produced by austempering which extends across whole cross-section of the bolt and increases its tensile strength|
    US20120144990A1|2009-08-24|2012-06-14|Baxter Andrew G|Armour|
    DE102011054840A1|2011-10-26|2013-05-02|Rud Ketten Rieger & Dietz Gmbh U. Co. Kg|Hardening steel for grade 8 and higher hoisting, lifting, tensioning and / or lashing equipment, lifting, lifting, tensioning and / or lashing equipment, and method of making such a component|
    DE102011055497A1|2011-11-18|2013-05-23|Kamax Holding Gmbh & Co. Kg|Ultra-high-strength screw with high yield ratio|
    KR101751530B1|2015-12-28|2017-06-27|주식회사 포스코|Steel sheet for tool and method of manufacturing for the same|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE2817628A|DE2817628C2|1978-04-21|1978-04-21|Tough, high-strength steel alloys and processes for making such workpieces|
    [返回顶部]