2010年, 第17卷, 第12期　刊出日期：2010-12-15

  

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工艺
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  Data-driven Prediction of Sintering Burn-through Point Based on a Novel Genetic Programming

  SHANG Xiuqin;LU Jiangang;SUN Youxian;et al

  中国钢铁期刊网. 2010, 17(12): 1-1.

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  The paper presents an empirical dynamic model of burn-through point (BTP) in sintering process. The model combines two stages of sintering process, cold processing stage and sintering stage. Fist, cold bed permeability measured by Gas velocity is introduced in the cold stage. Then, K-Means clustering is applied to partition the feed according to the permeability. Besides, for each clustering, a novel genetic programming (NGP) is proposed to construct the empirical model of the waste gas temperature and pressure drop through the bed in sintering stage. NGP adopts least square method (LSM) and M-estimator to improve the ability to compute and resist disturbance. Therefore, the paper constructs a model base of burn-through point and the simulation proves that the model base has a good performance.
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  Generation of Polycyclic Aromatic Hydrocarbons During Coking

  CHENG Xiangli;LI En ke;CANG Da qiang;et al

  中国钢铁期刊网. 2010, 17(12): 6-10.

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  The generation of polycyclic aromatic hydrocarbons during coking was studied and the contents of 16 PAHs are measured by the devices of ultrasonic abstraction and high performance liquid chromatography for single coal coking and blended coal coking. The results indicate that the amount of generated PAHs during the initial 1~4 hours of coking is the most. Among these PAHs the tetranuclear PAHs has a major portion and the Benzo[a]pyrene which can cause cancer, teratogenesis and mutation was generated in a larger concentration more than emission standard. The two PAHs are the main pollutions of PAHs pollution.
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  A Novel Method of Recycling CO2 for Slag Splashing in Converter

  ZHAO Hongxin;YUAN Zhangfu;WANG Wenjing;et al

  中国钢铁期刊网. 2010, 17(12): 11-16.

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  Converter off gas, an important energy resource for steel enterprises is one of the weak points in the recovery and utilization of secondary energy resources. To improve the level of recycling converter off gas in steel plants, a novel approach to recycle CO2 separated from converter off gas or other off gas for the green slag splashing technique was developed, and the CO2 equilibrium conversion ratio of the green CO2 slag splashing in different technological conditions was calculated by HSC software. Furthermore, the experiments of CO2 injected into melting converter slag were carried out, and the influence factors of the green CO2 slag splashing technique were analyzed. The results showed that the carbon amount for smoothly CO2 slag splashing was about 4.0%.
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  Analysis of Thermal Behavior for Beam Blank Continuous Casting Mold

  XU Hailun;WEN Guanghua;SUN Wei;et al

  中国钢铁期刊网. 2010, 17(12): 17-17.

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  Temperature Correction for Thickness Measurements of Hot Rolled Steel Plates

  C Gheorghies;S ConduracheBota

  中国钢铁期刊网. 2010, 17(12): 23-23.

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  Measuring the thickness of steel plates during the hot rolling process is crucial for getting the necessary feedback to obtain the desired values at room temperature. The dilatation and the phase transformations that steel suffers during it's heating and subsequent cooling when rolled strongly influence the results of thickness measurements. The radiometric method provides the necessary means to make real-time and fully automatized measurements of steel thickness during rolling, if only the temperature correction is precisely known and taken into consideration. This article proves that the experimental results concerning the relative variation of steel thickness and of it's corresponding mass-thickness variation can be correctly explained by means of the theory of metal dilatation correlated with the theory of nuclear radiation absorption when passing through a metal or metallic alloy, such as steel.
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  Coupling Dynamic Model of Chatter for Cold Rolling

  YANG Xu;TONG Chaonan;YUE Guangfeng;et al

  中国钢铁期刊网. 2010, 17(12): 30-30.

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  In order to build high accracy integral dynamic models of cold rolling mill system, by analyzing the vibration process of cold rollilng, the dynamic model of 4-h mill is built, including the rolling process model, the mill roll stand structure model and the hydraulic servo system model. These three models are coupled and linearized, then the multiple input multiple output(MIMO) linear transfer function model of single stand 4-h cold mill system is obtained. The model was carried out with the proposed data to prove its validity, meanwhile the effects to the stability of cold rolling mill system with different working conditions have been discussed. Simulation resulsts show that the model in accord with formers’ models and has its own advancement. It can make contribution to the further study on analysis and supression of coupling vibraiton.
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  Deflection Compensation Model for Flatness Measuring Roll

  LIU Jiawei;ZHANG Dianhua;WANG Junsheng;et al

  中国钢铁期刊网. 2010, 17(12): 35-37.

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  In flatness of measurement system, the flatness roll deflection will have the disturbance to the flatness measuring signal. The flatness roller's stress is analyzed and the flatness roll deflection model is obtained by using the influence function method in this paper. The model is computed and gets the corresponding compensating curve. The results indicated that the compensated scheduled flatness is preferably accordant with the online rolling flatness, so the strip with good flatness can be obtained after the compensation
材料
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  Influence of Gating System, Sand Grain Size, and Mould Coating on Microstructure and Mechanical Properties of Thin Wall Ductile Iron

  Hassan Jafari;Mohd Hasbullah Idris;Ali Ourdjini;et al

  中国钢铁期刊网. 2010, 17(12): 38-38.

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  In this study, the effect of gating systems, mould coating and sand grain size on metallurgical and mechanical properties of TWDI casting were investigated. Two different gating systems; stepped and tapered runners, were used to cast strip samples. The thicknesses of the samples cast were 2.3, 3.3, 4.5, 5.4, 6.5, 7.5 and 8.5 mm. The samples were cast in CO2/silicate process moulds of two different sand grain sizes of 151 and 171 according to the AFS standard. To assess the effect of mould coat on the properties of TWDI, half of the moulds were coated with graphite-based zircon whilst the rest were left uncoated. The carbon equivalent (CE) of the molten metal prepared was 4.29% and poured at the temperatures of 1450°C. The microstructure of the cast specimens was analyzed by optical and scanning electron microscopes. Clemex Image Analyzer (CIA) was used to evaluate graphite nodule count, graphite nodules area fraction, roundness and diameter of the nodules of the TWDI cast samples. Brinell hardness and tensile tests were also conducted on all the samples. The results show that by using stepped runner gating system with uncoated and coarse sand grain size mould, roundness and graphite nodule counts decrease. However, graphite nodules diameter and area fraction increase. The results also show that finer sand grain size and coated mould produce longer distance of molten metal travel.
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  Texture of Hot Rolled Strip for Fe-3Si Steel Produced by Thin Slab Casting and Rolling

  LI Changsheng;YANG Hua;WANG Yanfang;et al

  中国钢铁期刊网. 2010, 17(12): 47-53.

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  Fe-3%Si steel strip was experimental produced by thin slab casting and rolling (TSCR) process in the laboratory. The microstructure and texture of hot rolled strip by different total reduction and rolling schedule was observed through EBSD technique and X-ray diffraction method. The changeable rule of texture density on the α、ε and γ, and fibers was analyzed. When the total reduction was increased from 82.9% to 97.1%，the gradient of microstructure and texture for A steel surface layer and center layer was found, {001}‹110› texture had higher intensity, and {001}‹110› texture was changed to

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  Development of TiMicroalloyed 600 MPa Hot Rolled High Strength Steel

  YI Hailong;LIU Zhenyu;WANG Guodong;et al

  中国钢铁期刊网. 2010, 17(12): 54-58.

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  A high strength steel with tensile strength on the order of 710MPa had been development successfully with only addition of titanium alloy element based on a low carbon steel. The results show the hot deformation accelerates ferrite and pearlite transformation and retards bainite transformation under continuous cooling condition. The microstructure of this steel is mainly composed of fine-grained ferrite and carbides distributed along the ferrite grain boundaries. The yield and tensile strengths of steels are about 620～650MPa and 720～740MPa, respectively, and the values of strain hardening exponent (n) and plastic strain ratio (r) are 0.12 and 0.80, respectively, thus providing well-matched strength with toughness. In short, the fine-grained ferrite and TiC nano-precipitates play an effective role in strengthening the steel.
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  Effect of Ce on Inclusions and Impact Property of 2Cr13 Stainless Steel

  LIU Xiao;YANG Jichun;YANG Lin;et al

  中国钢铁期刊网. 2010, 17(12): 59-64.

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  The effect of Ce on inclusions and impact toughness of 2Cr13 stainless steel were studied by SEM and electron spectroscopy. Thermodynamic calculation was used to analyze the formation of RE inclusions in 2Cr13 stainless steel. The result shows that Al2O3 and MnS can be entirely replaced by Ce2O2S and CeS. Fracture is changed from cleavage to ductile fracture by adding Ce to the 2Cr13 stainless steel, and the spherical rare earth oxysulfide inclusions-Ce2O2S in the dimple are the main factors. The transverse impact value of 2Cr13 stainless steel has been improved obviously by rare earth. The transverse impact value of RE-2Cr13 is increased 55.46% at the temperature of -40℃, comparing with 0RE-2Cr13.
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  Hot Deformation Characteristics of 34CrMo4 SteelS

  V Sajadi Far;M Ketabchi;M R Nourani

  中国钢铁期刊网. 2010, 17(12): 65-69.

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  The 34CrMo4 (American grade: AISI 4130) steel is extensively utilized in the compressed natural gas cylinders. Due to the importance of thermo-mechanical processing in the production of these cylinders, the dynamic recrystallization (DRX) characteristics of 34CrMo4 steel were investigated in the present study. In the present work, the effect of hot deformation parameters such as temperature and strain rate on the dynamic restoration processes of a 34CrMo4 alloy was studied. Hot compression tests were performed in the temperature range of 900-1100?C and the strain rate range of 0.001-0.1 s??. Hot workability of this alloy has been analyzed by employing flow localization parameter. The flow curves observed are typical of occurrence of dynamic recrystallization and have exhibited single or multiple peak in flow stress before reaching steady state, depending on the temperature and strain rates. The flow stress decreases with the increase of deformation temperature and the decrease of strain rate. Finally the activation energy obtained in this research is 490.749kj/mol.
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  Effects of Twin-Dislocation and Twin-Twin Interactions on the Strain Hardening Behavior of TWIP Steels

  WANG Shuhan;LIU Zhenyu;WANG Guodong;et al

  中国钢铁期刊网. 2010, 17(12): 70-74.

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  In the present paper, tensile tests of Fe-30Mn-5Si -2Al steel were carried out for different strains of 0.05, 0.14, 0.26, and up to the strain-to-failure in order to observe the evolution of microstructure during deformation and investigate the strain hardening behavior. Three-stage strain hardening behavior was observed in this steel during tensile test. In stage I, planar dislocation structure was observed by TEM to be the main deformation mechanism, and low strain hardening rate exponent was exhibited. Primary deformation twinning occurred in stage II, and the strain hardening rate exponent increased due to the blockage of dislocations’ motion by twin boundaries. In stage III, the strain hardening rate exponent had increased to be higher than 0.5. The obstacle effect of twin boundaries and twin-twin interaction had been observed by TEM, and the interactions between primary and secondary twins were found to cause the additional hardening in addition to the obstacle effect on dislocations’ motion, which led to the twinning induced plasticity effect in the later stage of deformation.
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  Influences of Black Carbon Addition on Mechanical Performance of Low-Carbon MgO-C Composite

  LI Lin;TANG Guangsheng;HE Zhiyong;et al

  中国钢铁期刊网. 2010, 17(12): 75-78.

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  Carbon black-phenolic resin composite binders with various amounts of nanometer carbon black were prepared through adding KH-550 coupling agent and high-speed mixer. The effects of nanometer carbon black amount added on viscosity of the composite binders were studied. Low carbon MgO-C specimens were fabricated with these composite binders. Effects of nanoscale carbon black contents (0, 2.5%, 5%, 10%, and 15% of phenolic resin in mass) on mechanical properties of low carbon MgO-C specimens were investigated. The results revealed that the viscosity of the composite binder increased rapidly with increase of nanometer carbon black content. Moreover, it indicated that CMOR, HMOR and CCS of the specimens rose gradually with increase of nanometer carbon black content as well.