【摘 要】
:
The capability of nickel-based corrosion resistant alloy is mostly influenced by the quantity,composition,size,distribution of precipitate phase in alloy.After isothermal treatment,nickel-based corros
【机 构】
:
Science and Technology,Shanghai 200237,China;Central Research Institute,Baoshan Iron and Steel Co.,L
【出 处】
:
第十届中国钢铁年会暨第六届宝钢学术年会
论文部分内容阅读
The capability of nickel-based corrosion resistant alloy is mostly influenced by the quantity,composition,size,distribution of precipitate phase in alloy.After isothermal treatment,nickel-based corrosion resistant alloy undergoes various decomposition processes which could form precipitates of inter-metallic phase and carbides.It is well known that these precipitates lead to a reduction in creep ductility and adversely affect the toughness and corrosion property.In present paper,qualitative and quantitative analyses of precipitate phases were carried out and the analytical procedure has been established.After choosing electrolyte and electrolytic system,electrolytic isolation was performed to extract precipitates from matrix.,The residues were collected by ultrasonic cleaning and filtration after galvanostatic electrolysis.Scanning electron microscope(SEM)and X-ray diffraction(XRD)were used to examine their structure,modality and size.The contents and elemental compositions of different precipitate phase were calculated by Rietveld method.Furthermore,the relation between percent of precipitate phase and capability of corrosion resistant was discussed.Our experiments demonstrated that the most of precipitate phase was formed at 900℃.For the precipitate phases at 900℃ with different aging time,the content and size showed significant increasing trend with the prolonging of aging time.The results of corrosion evaluation also showed the strong relativity between percent of precipitate phase and capability of corrosion resistant: with the increase of percent of precipitate phase,the average corrosion rate of material was also raised and the corrosion resistant capability of material was declined.
其他文献
以具有火力发电、清洁能源、煤炭开采、污水处理、煤层气化多种能源领域的综合能源集团为研究对象,建立了基于移动手机APP的综合能源管理中心平台,通过移动互联网技术实现了对各能源领域关键技术、经济、环保和可靠性指标实时、方便、快捷的监视.为集团层面迅速掌握各能源领域发展状况提供了有效的技术支持,为提高集团生产经营科学决策水平和核心竞争力提供全面的解决方案.
利用远程诊断分析系统的数据,根据凝汽器端差大,收球率低,同时对机组停运前和启动过程进行了解,能够实现对1030MW机组真空低问题原因分析.将远程诊断作为技术监督的重要手段,可以发挥远程诊断平台大数据技术和技术信息中心技术人才集中的优势,对指导监督电厂设备状况控制,提高机组安全、经济、高效运行有重要意义.
IPT系统负载的不稳定性将导致谐振频率发生漂移,影响系统的能效特性.对于高阶系统,传统频率控制方法的实现需建立系统的数学模型,难以精确控制,针对该问题,提出一种基于能量模型的频率控制策略,建立IPT系统的能量流动模型及系统各个模块的能量函数,该能量模型不依赖于系统电路拓扑,仅依据系统能量流动提出谐振频率点的判据来设计频率控制策略.文中以混联补偿的TS型系统为例,通过仿真验证了本文所述方法的正确性.
从电压、磁链方程出发,推导了双馈感应电机暂态等值电路并给出了暂态电势的表达式.针对三相对称短路瞬间投入撬棒这一典型情况,导出了暂态电势的的变化特性.指出不同于传统同步机,由于转差和撬棒电阻的存在,双馈电机暂态电势是交变衰减的.暂态电势在整个暂态过程中呈快变特性,并且随着转差和撬棒电阻增大愈发严重.最后基于Matlab/Simulink,通过仿真验证了理论计算的正确性,为进一步研究单台双馈感应电机以
用线性电位扫描法研究了碳钢在不同浓度电解质条件下的阳极极化过程,再进一步用恒电位法、恒电流法分别研究了碳钢在不同浓度电解质条件下电解行为.发现碳钢阳极极化过程依次经历活化区、钝化区、过钝化区及极限区,不存在活化-钝化过渡区;在过钝化区电极表面发生析氧反应,使得阳极电流呈指数增加;当阳极电流达到最大值后开始降低并最终稳定在某个范围内,电极表面进入极限区,除继续发生析氧反应外,还会发生基体溶解反应,并
采用等离子喷涂技术制备用于连续退火炉高温炉辊的新型复合热障涂层,以Ni基合金涂层打底、ZrO2-Y2O3涂层作为工作层、以ZrO2-Y2O3与纯Al2O3混合粉涂层盖面,通过金相显微镜、显微硬度计、拉伸试验机、磨损试验机等对涂层的微观组织及性能进行了观测分析。结果表明,新型复合热障涂层与常规热障涂层相比,涂层微观组织更加致密,具有更高的显微硬度,更好的耐磨损、抗冲击性能,与基体结合强度、抗热震性能
In this work,acryogenic rolling process was appliedto a 3Mn-1.5Al TRIP steel.Microstructure characterization was carried out by means of optical microscope,scanning electron microscope(SEM)equipped wi
采用调整调质态Q690钢板轧制后冷却方式的试验,考察轧后水冷、空冷和炉冷对试验钢屈强比的影响。试验结果表明:采用不同的轧后冷却方式,经两相区调质处理后,力学性能满足690级别高强钢的要求,但是屈强比(YS/TS)不同。采用轧后水冷的试样,冷却速度达到35℃/s,调质后软相组织铁素体含量最低,约为10%,YS/TS最高,为0.937.采用轧后空冷的试样,轧态组织中铁素体含量增加,调质后软相组织含量也
热轧高强钢板在热处理过程中,会在板带内部引起不均匀内应力,进而出现各种各样的板形不良情况,其后增设的矫直机就是为了改善板形,消除内部残余应力.矫直机的作用在于通过合理的辊缝设定使板带发生较大的弹塑性变形,实现多次反复弯曲以达到矫正板带板形平直性缺陷、消除钢板瓢曲和翘曲、降低残余内应力的目的.矫直机矫正作用的发挥对板带最终产品质量的控制起到重要的作用.矫直模型是矫直机及矫直技术的核心关键,其计算精度
D2钢是一种高碳高铬莱氏体型冷作模具钢,为了研究Nb对D2钢性能的影响,本文设计了当Nb含量分别为0.23%、0.46%、0.52%时,对D2钢力学性能和组织的影响。试样经过锻造,淬火和回火后进行各项性能测试,采用洛氏硬度计测试硬度,摆锤冲击韧性试验机上测量试样断裂的冲击功,热场发射扫描电镜观察组织,XRD测定残余奥氏体的量。试验结果表明,在不同热处理阶段硬度变化不大,当Nb含量为0.23%时各阶