超级钢

  • 网络Super-Steel;SUPER STEEL;ultra-steel
超级钢超级钢
  1. 超级钢线材生产工艺研究及实践

    Research and Practice of Technology for Ultra-steel Wire

  2. 400MPa超级钢热连轧过程中再结晶及流变应力的预测

    Prediction of recrystallization and flow stress during multipass hot rolling of 400 ? Mpa super-steel

  3. C-Mn超级钢的工业化生产和应用

    The industrial production and application of C-Mn supersteel

  4. 400MPa级超级钢激光焊接及其焊接性研究

    Study of Laser Welding of 400 MPa Super Steel and Its Weldability

  5. 400MPa级超级钢焊接热影响区晶粒尺寸的预测

    Prediction of grain size in the HAZ of the ultrafine grain steel joint

  6. 再加热温度对400MPa级超级钢组织和性能的影响

    Effects of Reheating Temperature on the Microstructure and Mechanical Properties of Ultrafine Grain Steel

  7. 400MPa级超级钢的脆性转变温度

    Brittle Transition Temperature of 400 MPa Supersteel

  8. 4×1000MW发电机组主厂房超级钢结构吊装

    Installation of Super Huge Steel Structure for Main Power Plant Equipped with 4 × 1000MW Generating Unit

  9. 500MPa级超级钢工业实验

    Industrial Trials of 500 MPa Supersteel

  10. 在鞍钢现有生产设备条件下,能够实现400MPa级和500MPa级超级钢生产。

    Realized to produce 400 MPa and 500 MPa super steel in condition of present equipment in An steel .

  11. 还描述了UFC装置的应用实例及在开发超级钢、多相高强钢、相变诱导塑性钢等高附加值钢铁材料方面的应用潜力。

    Some application examples of UFC and the potential for the production of high strength steel grades like multiphase HSS , TRIP and so on were introduced .

  12. 采用热模拟试验机、拉伸试验机以及光学显微镜等设备,根据CCT曲线和拉伸实验的结果,研究了冷却速度对700MPa级超级钢组织和性能的影响。

    With hot simulator , tensile tester and optical microscope , the influence of cooling rate on the microstructure and mechanical properties of 700 MPa HSLA steels was studied .

  13. 采用手工电弧焊、二氧化碳气体保护焊、等离子弧焊焊接400MPa级超级钢,并对焊接接头显微组织及力学性能作了分析研究。

    The microstructure and mechanical properties of welding joints were studied by manual metal arc welding , carbon dioxide arc welding and plasma arc welding .

  14. 采用全线奥氏体未再结晶区轧制生产超级钢

    Super Steel Produced by Whole Line Rolling in Unrecrystallized Austenite Region

  15. 超级钢汽车车轮强度有限元分析

    FEM Analysis of Strength of Automotive Wheels Made from Ultra-Fine Grain Steel

  16. 超级钢焊接接头粗晶区的精细结构

    Fine structures in coarse grained zone of ultrafine grained steels

  17. 超级钢板材冲压性能的试验研究

    Test research of stamping property for super steel plate

  18. 超级钢热轧带肋线材工业试验与生产

    Pilot Production of Super Hot Rolled Steel Rib Wires

  19. 分析了超级钢在汽车生产中的应用前景。

    The application prospects of the Super-steels in the automotive production are analyzed .

  20. 超级钢中厚板焊接工艺对接头冲击韧度的影响

    Effect of Welding Process on Weld Joint Impact Toughness of Ultrafine Grained Steel Plate

  21. 在这种背景下出现了新一代钢铁材料超级钢。

    Against this background a new generation of steel materials " super steel " .

  22. 准贝氏体是高强度超级钢的一种理想的基体组织。

    Meta bainite is also a desirable matrix for development of high strength ultra grade steel .

  23. 日本的超级钢材料计划

    The Super Steel Plan of Japan

  24. 超级钢屋盖施工及旋转式龙门吊共用的中心巨型支撑安装技术

    The Central Giant Support Installation Technique for Both Super Steel Roof Truss and Revolving Gantry Crane Construction

  25. 低碳超级钢中氧硫氮的控制及其对钢组织性能的影响

    Control of Oxygen , Sulfur , Nitrogen and Its Effects on Microstructure and Properties of Low Carbon Supersteel

  26. 超级钢的化学成分与普通的碳素结构钢相近,但其力学性能有大幅度的提高。

    Super steel has the same chemical composition with plain carbon steel , but its yield strength is higher than plain carbon steel because it has fine grain size .

  27. 超级钢的主要特征是高洁净度和超细晶粒组织,在不增加任何合金元素的情况下,其强度、韧性和使用寿命提高一倍。

    Ultra steel is characterized by its higher cleanness and ultra-fine grain , thus it has higher strength , toughness and longer life even without addition of more alloying elements .

  28. 对一种屈服强度为380MPa、抗拉强度为520MPa的超级钢中厚板进行气体保护焊工艺及接头冲击韧度研究。

    The gas shielded arc welding process and weld joint impact toughness of an ultrafine grained steel plate with 380 MPa yield strength and 520 MPa tensile strength were studied .

  29. 采用新一代钢铁材料超级钢代替原有的普通强度钢材制造中型客车或货车车轮,以此实现汽车减重、降低油耗和减少环境污染。

    To implement the weight reduction , low fuel consumption and pollution control , the new-generation ultra-fine grain steel has been used to make automotive wheel spoke instead of common high-strength steel .

  30. 利用洁净普碳钢的化学成分,通过控制轧制与轧后冷却工艺制度,可以得到内部组织均匀、细小的新一代钢材&超级钢。

    Using the same chemical compositions as those of the cleanly plain carbon steel , by means of optimizing the parameters in rolling and cooling , the super steel which has fine grain size was produced .