渗氮时间对G13Cr4Mo4Ni4V钢组织及硬度的影响

对渗碳G13Cr4Mo4Ni4V钢进行渗氮热处理,研究渗氮时间对G13Cr4Mo4Ni4V钢复合层、渗碳层和心部的微观组织变化,以及硬度的影响。结果表明:渗氮处理后的G13Cr4Mo4Ni4V钢复合层和渗碳层由碳化物、回火马氏体和少量残余奥氏体组成,心部由板条马氏体及少量碳化物组成。渗氮90 h后G13Cr4Mo4Ni4V钢表面洛氏硬度提高,但波动性增大。渗氮50 h后的G13Cr4Mo4Ni4V钢渗层显微硬度最大,可达960 HV,渗氮层厚度为0.17 mm,有效渗碳层厚度为1.67 mm;而渗氮90 h后的G13钢显微硬度最大可达到906 HV,渗氮层厚度为0.19 mm,有效渗碳层厚度为1.26 mm。有效渗碳层厚度的降低与渗氮过程中碳元素向内扩散导致基体碳浓度降低有关,而显微硬度的降低与网状碳化物的析出降低了基体碳元素含量有关。

150 MW级新兴生物质发电机组用Cr-Ni-Mo-V钢转轴锻件制造工艺研究

对于150 MW级Cr-Ni-Mo-V钢发电机转轴锻件的制造工艺要点进行阐述,通过采用下注单真空钢锭制造技术路线,对其主要热加工工序制造工艺进行研究以及产品试制,经过各项理化检验,转轴锻件的化学成分、力学性能等指标满足技术要求。

西太平洋深海环境中Ni-Cr-Mo-V高强钢的腐蚀行为

采用深海高效串型试验装置对Ni-Cr-Mo-V高强钢在西太平洋深海环境中进行了深海腐蚀试验,并利用扫描电镜、能谱仪、拉曼光谱仪和扫描开尔文探针等方法,研究了该钢在500,800,1200,2000 m海深下的腐蚀行为。结果表明:Ni-Cr-Mo-V高强钢在500,800,1200,2000 m深海环境中暴露1 a后的腐蚀速率分别为0.130,0.096,0.093,0.081 mm/a,腐蚀速率随深度的增加逐渐减小;在深海环境中,该钢表面形成浅碟状点蚀坑,部分区域点蚀坑合并形成均匀腐蚀形貌;该钢在深海环境中的腐蚀产物主要包括α-Fe_(2)O_(3)、γ-FeOOH与α-FeOOH。

Surface morphology and electrochemical characterization of electrodeposited Ni-Mo nanocomposites as cathodes for hydrogen evolution

In this work, we study the influences of current density on surface morphology and electrochemical characterization of electrodeposited Ni-Mo. The Ni-Mo composite coatings are deposited on pretreated copper substrates by electrolytic deposition. The Ni-Mo solution is taken from nickel sulfate fluid and ammonium heptamolybdate with 10 g/l. The Ni-Mo composite coatings are deposited at a temperature of 303 K with an applied current density of j dep= 10 A/dm2-30 A/dm2.We find that the corrosion resistance is improved by incorporating Mo particles into Ni matrix in 0.6-M Na Cl solution. From the potentiodynamic polarization curve of electrodeposited Ni-Mo it is confirmed that the corrosion resistance decreases with increasing applied current density. The x-ray diffraction（XRD） analyses of Ni-Mo coatings indicate three phases of Mo Ni4, Mo1.24Ni0.76, and Ni3 Mo phases crystallites of nickel and molybdenum. The scanning electronic microscopy（SEM） tests indicate that Ni-Mo coatings present cracks and pores.

Surface structure and catalytic activity of electrodeposited Ni-Fe-Co-Mo alloy electrode by partially leaching Mo and Fe

Ni-Fe-Mo-Co alloy electrode was prepared in a citrate solution by electrodeposition, and then Mo and Fe were partially leached out from the electrode in 30% KOH solution. The unique surface micromorphology of a hive-like structure was obtained with an average pore size of about 50 nm. The electrode has a very large real surface area and a stable structure. The effects of sodium molybdate concentration on the composition, surface morphology, and structure of electrodes were analyzed by EDS, SEM and XRD. The polarization curves of the different electrodes show that the catalytic activity of electrodes is strongly correlated with the mole fraction of alloy elements (Ni, Fe, Mo, Co), and the addition of cobalt element to Ni-Fe-Mo alloy improves the catalytic activity. The Ni35.63Fe24.67Mo23.52Co16.18 electrode has the best activity for hydrogen evolution reaction(HER), with an over-potential of 66.2 mV, in 30% KOH at 80 ℃ and 200 mA/cm2. The alloy maintains its good catalytic activity for HER during continuous or intermittent electrolysis. Its electrochemical activity and catalytic stability are much higher than the other iron-group with Mo alloy electrodes.

大型核电汽轮机用Cr-Ni-Mo-V钢中间轴制造工艺研究

阐述了使用Cr-Ni-Mo-V钢制造大型核电汽轮机中间轴锻件的制造工艺特点,对其冶炼、锻造、热处理工艺进行研究和产品试制,并通过理化检验评价,满足产品技术要求,验证了制造工艺的合理性和可行性。

Effect of Al in Ti－microalloyed Mn－Ni－Mo welding wire on microstructure and toughness of deposited metal

The effect of Al in Ti-microalloyed welding wire on microstructure and toughness of deposited metals is studied.The results show that the deposited metal toughness worsens with increasing Al in wire' The mechanism of Al is as follows:(1) Al makes oxygen content in deposited metal increase.(2)Al restrains the formation of Ti-rich oxide inclusion, which causes granular bainite microstructure in deposited metal.(3)The content of solute Ti in deposited metal increases with Al content in welding wire,as a result,a part of carbonrich constitution in deposited metal is in the form of twin martensite.

Preparation of Ni60-Cr_3C_2 Coating by Plasma Spraying,Plasma Re-melting and Plasma Spray Welding on W6Mo5Cr4V2

In order to prepare heatresistant inner layer of hot-forging die, plasma spraying, plasma re- melting and plasma spray welding were adopted. Cr3C2 coatings of Ni-Based were prepared respectively with 10%, 20% and 30% Cr3C2 powder and W6Mo5Cr4V2 substrate. The coating microstructure analysis, the micro-hardness test, and the measurement of thermal parameters of coating were conducted. The experimental results show that the coating has the better thermo-physical property by using plasma spray welding method with the powder ratio of 90% Ni60 and 10% Cr3C2, and by this way the micro-hardness of coating can achieve 1100 HV.

45Cr4NiMoV钢动态再结晶模型研究

采用Gleeble热模拟试验机对45Cr4Ni Mo V钢在变形温度1000～1150℃,应变速率0.002～5s-1,最大变形量为55%的条件下进行热模拟压缩试验。采用Poliak EI和Jonas J J等人对θ-σ（θ=dσ/dε为加工硬化率）曲线的描述,建立了45Cr4Ni Mo V钢在变形参数范围内的动态回复曲线（DRV）。通过对变形过程中的动态再结晶体积分数XD与应力参数之间的关系拟合,得到了45Cr4Ni Mo V钢在变形参数范围内的动态再结晶体积分数模型为：XD=1-exp-1.29ε-εcε0.5εε2.304εε。

ICP-AES分析低合金钢中的Mn、Mo、V、Ni、Al、Cu、Cr元素

用等离子发射光谱法测定低合金钢中的Mn、Mo、V、Ni、Al、Cu、Cr元素,试样用HNO3和HCl在加热条件下分解,经过系列试验,选择仪器的工作条件,进行测定,建立了一套分析方法,经对照分析,分析结果令人满意。本方法快速准确,精密度良好,完全可以满足生产需要。

1Cr12Ni2W1Mo1V铣削过程参数对残余应力影响研究

针对汽轮机末级动叶片在实际应用中的抗疲劳性能问题,文章通过对1Cr12Ni2W1Mo1V不锈钢进行不同参数下的加工试验,研究了过程参数对叶片表面残余应力的影响机理及规律。将不同组间的试验数据进行对比得出了结论,并对产生原因进行了分析,认为提高主轴转速有利于残余压应力的加大,而温度热应力对残余拉应力起着主导作用。可在不同加工参数条件下提高叶片表面的残余压应力,减少了后续的喷丸表面处理工序。

新型高强韧Cr-Ni-Mo-V钢的显微组织结构与强韧化机理

新型高强韧Cr-Ni-Mo-V钢以新的设计思想为指导,采用"减法合金"和氧化物控制理论,减少易氧化元素、提高主元素,从而有效提高钢的强韧性。对新型高强韧钢在不同氧含量下钢中夹杂物以及显微组织结构进行分析,研究该高强韧钢的强韧化机理。结果表明:采用减法合金和氧化物设计方法,可以提高新型钢的纯净度,增强钢的韧性;新型高强韧钢中存在纳米级M2C、VC等碳化物析出,大量位错在晶界、马氏体板条间增值和堆积,使钢兼具高强度和韧性。

正火时间对不同变形后30Cr2Ni4MoV钢晶粒度的影响

在实际生产中大锻件不同部位因变形不均匀而导致晶粒尺寸不一。为了探究这一现象,利用Gleeble-1500D热模拟试验机在1000℃、应变速率0.1 s^(-1)、变形量5%~55%时模拟了大型低压转子用30Cr2Ni4MV钢的变形过程,研究了其在随后正火过程中晶粒大小随保温时间的变化规律。结果表明,与未变形试样相比,经过相同正火的变形试样的晶粒得到明显细化。在900℃正火的初期,变形量小于35%时,晶粒尺寸随变形量的增加而减小;当变形超过35%后,变形量对晶粒尺寸影响不大,且随保温时间的延长,不同变形量变形后试样的晶粒均会持续长大,正火5 h可以消除变形量对试样晶粒度的影响。

汽轮机材料1Cr12Ni2W1Mo1V超临界钢的热压缩流变应力行为

为研究不同工艺参数对汽轮机材料1Cr12Ni2W1Mo1V超临界钢高温变形行为的影响,在变形温度1000~1150℃,应变速率0.005~5 s^(-1)的条件下进行热压缩试验,得到了相应的真应力-真应变曲线。结果表明:1Cr12Ni2W1Mo1V超临界钢的高温流变应力对温度和应变速率比较敏感。通过双曲正弦本构方程和线性回归分析构建1Cr12Ni2W1Mo1V高温塑性变形的本构模型,并将流变应力的预测值与实验值进行比较,二者拟合程度高,表明该模型能较好描述该钢在热变形过程中的流动行为。

喷丸对1Cr11Ni2W2MoV钢航空发动机涡轮盘表面完整性的影响

对航空发动机涡轮盘采用两种不同弹丸喷丸后,用金相显微镜、表面粗糙度仪、X-350A应力衍射仪、DUH-211(S)动态超微小显微硬度计和SUPPA40高分辨热场发射扫描电镜等设备对1Cr11Ni2W2MoV不锈钢航空发动机涡轮盘喷丸前后表层组织、表面粗糙度、残余应力、超显微硬度及冲击断口等进行对比观测。结果表明:喷丸后表层组织有细化;表面粗糙度值约为未喷丸的10倍;表面残余压应力约为未喷丸的2倍多;表层硬度由表及里呈下降趋势;通过对冲击断口的观察分析可知,喷丸除了对疲劳性能有改善作用外,对材料断裂也有一定的作用。弹丸种类的不同仅在表面残余压应力上有差异体现。

高强韧Cr-Ni-Mo-V钢的冶炼工艺研究

采用真空感应炉和电渣重熔炉对高强韧Cr-Ni-Mo-V钢的冶炼工艺进行了研究。结果发现,该双联工艺冶炼的高强韧Cr-Ni-Mo-V钢气体含量与有害元素含量均较低,新型REO-MgO-CaO-CaF2-Al2O3五元稀土渣系具有较强的脱硫能力,可以使钢中硫含量由0.005%降到0.001%。同时,通过五元稀土渣系保护重熔,可以使(10~20)×10^-6以上微量有益元素Ce、La、Mg稳定地进入电渣锭中。

10Cr4Ni4Mo4V钢高温性能的试验分析

对10Cr4Ni4Mo4V钢的部分高温性能进行了试验分析。结果表明,10Cr4Ni4Mo4V钢具有良好的高温硬度和高温冲击韧性,且高温接触疲劳寿命也高于Cr4Mo4V。附图6幅,表4个。

热处理对4Cr4Mo2Ni1V模具钢组织与力学性能的影响

对4Cr4Mo2Ni1V模具钢进行不同温度的淬火和回火试验。采用OM、SEM、EDS、硬度测试、冲击试验等方法研究了淬火及回火温度对4Cr4Mo2Ni1V模具钢组织与力学性能的影响。结果表明:1000℃淬火态4Cr4Mo2Ni1V试验钢的组织主要为板条马氏体和少量Cr-Mo-V碳化物,1030℃淬火试验钢中碳化物基本溶解,马氏体组织粗化明显,1000℃为4Cr4Mo2Ni1V试验钢的合适淬火温度。随着回火温度的升高,4Cr4Mo2Ni1V试验钢硬度先略有下降,再升高又显著降低。冲击吸收能量先降低后升高,4Cr4Mo2Ni1V试验钢经过1000℃淬火+560℃回火处理后,综合力学性能匹配最好。

冷却速度对24Cr2Ni1Mo1V高低压联合转子钢显微组织的影响

研究了不同的冷却速度对高低压联合转子钢24Cr2Ni1Mo1V显微组织和硬度的影响。结果表明,当冷却速度较慢时,组织以粒状贝氏体为主,伴随少量先析出铁素体,随着冷却速度增加,马氏体转变量增加,组织变为贝氏体与板条马氏体的混合组织,冷却速度进一步增加,可转变为全部马氏体组织。

初始晶粒度对30Cr2Ni4MoV钢变形+正火处理后晶粒大小的影响

以不同初始晶粒度（未粗化和粗化）的30Cr2Ni4Mo V钢为对象,研究了正火处理对经过5%、15%、25%、35%、45%、55%压缩变形后试样晶粒度的影响。结果表明,对于不同初始晶粒度的材料,经变形＋正火处理900℃保温时间0.5h后,变形后试样的晶粒均比相同初始状态未变形试样的要细小。当保温5 h时,变形试样的晶粒度趋于一致。不同初始晶粒度的试样经变形＋正火处理后,在其晶粒度-变形量曲线上存在初始晶粒大小影响敏感区,随保温时间的延长,敏感区范围扩大,其向大变形量方向移动,当保温时间为5 h时,初始晶粒度的影响基本消除。