Q235钢CSP过程组织及性能的转变

对包钢CSP线生产的Q235钢连铸坯及不同道次轧制后空冷的试样进行了组织观察,测定了硬度及力学性能.分析了CSP线生产的Q235钢组织、性能变化的原因.研究表明,随轧制道次的增加,变形后轧件的室温组织细化;沿铁素体晶界分布的珠光体变得均匀、弥散;力学性能较采用传统工艺制备的Q235钢有显著提高.     

CSP工艺条件下低碳钢板带材力学性能研究

热轧板带材成品因其内在组织形态及成分不同而呈现较明显的力学性能差异.就包钢薄板坯连续连轧CSP工艺条件下,低碳典型钢种Q235B和SS400显微组织及轧制工艺对材料力学性能的影响进行了实验研究.用数理统计方法建立了工艺参数与产品性能回归数值模型,模型拟合效果较好.     

Effect of tempering temperature on the mechanical properties and microstructure of an copper-bearing low carbon bainitic steel

The effect of tempering temperature on the microstructure and mechanical properties of ultra-high strength, copperbearing, low-carbon bainitic steel has been investigated in the experiment. The results showed that the microstructure was mainly the laths of bainite in the as-quenched steel. The bainitic laths were restored and combined after the steel tempered at various tempera- tures. There were rnartensite/austenite （M/A） islands and numerous dislocations within and between the bainitic laths, while very t-me precipitates of ε-Cu were also observed within the laths. With increasing the tempered temperature from 400 to 600℃, the yield strength （YS） increased from 877 to 957 MPa, whereas the ultimate tensile strength （UTS） decreased from 1020 to 985 MPa. The Charpy V-notch （CVN） varied from 68.5 to 42 J, and the value was minimal for the steel tempered at 500℃. 2008 University of Science and Technology Beijing. All rights reserved.     

Aspects of microstructure in low carbon steels produced by the CSP process

The solidification structure, microstructure evolution during rolling and precipitates with nanometers in dimension of the low carbon steels produced by CSP process with thin slabs have been studied in recent years. Important differences in microstructure and mechanical properties between the CSP products and the conventional one were observed. These differences may arise from the much rapider solidification rate and cooling rate after casting of the thin slabs. Some aspects of the microstructure for the low carbon steels of the CSP thin slabs are summarized and compared with the conventional one.     

回火工艺参数对DP600热轧双相钢组织和性能的影响

采用低温回火实验模拟热轧双相钢实际生产过程中卷取后的冷却过程,分析回火温度与保温时间对0．09C-0．1Si-1．3Mn-0．5Cr-0．05P热轧双相钢组织及力学性能的影响。结果表明,回火过程中主要是碳原子通过扩散影响铁素体与马氏体中的微结构,从而对其组织和力学性能产生影响;200℃回火后双相钢基本保持原有的组织与性能,230℃以上随回火温度升高和保温时间延长,马氏体分解逐渐明显,铁素体中碳原子钉扎可动位错造成屈服现象的发生;在230～250℃温度范围回火时,保温时间的延长较温升对回火程度的影响更加明显。     

Microstructure evolution and precipitation behavior of low carbon steel hot strips produced by CSP

The microstructures of low carbon steel before, during and after rolling deformation of each stand were observed using optical microscope. The result showed that the microstructures were very fine after six passes rolling deformation. The effect of the first stand reduction on microstructure refinement was very distinct. During the rolling process, with the increase of the accumulated strain, the microstructures would further refine, and the density of dislocation would increase at the same time. In continuous casting thin slabs and each finishing stand, lots of observed precipitates were mainly A12O3 and MnS along the grain boundaries or in grains,which played an important role in the mechanical properties of the hot strips of low carbon steel produced by CSP (compact strip production) technology.     

C—Si—Mn系热轧双相钢显微组织与力学性能之间的关系

通过对热轧试样的组织性能测试,研究了热轧双相钢显微组织与力学性能之间的关系。研究发现,铁素体和马氏体强度是影响力学性能的主要因素。建立了C-Si—Mn系热轧双相钢力学性能的数学模型,可以作为热轧双相钢基本力学性能参数预测的理论依据。     

Microstructure and mechanical properties of automobile beam steels produced by EAF-CSP process

The microstructure, mechanical properties, and misorientation of automobile beam steels produced by EAF-CSP process were studied using optical microscopy （OM） and electron back-scattered diffraction （EBSD）. It is shown that the microstructure of strips is mainly polygonal ferrite, and the average grain size is about 5-8 μm. The electron back-scattered diffraction results show that grain boundaries in ferrite are basically high-angle grain boundaries without remarkable preferred orientation. Hot strips of automobile beam steels possess a good combination of strength and plasticity because of their fine microstructures and low quantity of impurities.     

Grain refinement of low carbon steel produced by CSP process

In comparison with conventional production for hot strips, compact strip production (CSP) brings about some new micro-structural phenomena. Investigations were carried out to clarify the grain refinement mechanism of low carbon steel strips produced by the EAF-CSP process. Samples, obtained from the same rolling stock during continuous rolling, were examined through SEM,TEM and XEDS. Thin slabs have a dominant columnar structure and the spacing of the secondary dendrite arms ranges from 90 to ～125 μm. The average grain sizes for the central area of the samples from the 1st to 6th pass are 41.6, 25.2, 21.4, 20.2, 13.1, 6.7 μm,respectively. Large number of nanometer oxide and sulfide have been found in the low carbon steel produced by the CSP process.The grain refinement mechanism can be summarized as follows: finer solidification structure of the thin slab; austenite recrystalliza-tion at higher temperature and stain accumulation at lower temperature caused by the great reduction of single rolling pass during continuous rolling; nano-scaled precipitates of sulfide and oxide which drag grain boundaries of austenite or ferrite to prevent the grain coarsening.     

Effects of sintering atmosphere on the microstructure and mechanical property of sintered 316L stainless steel

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