Study on detinning process of a reflow conductor roll

Adhering tin is the main reason of a reflow conductor roll which works in an electroplating tin line （ETL）. A det- inning agent whose main composition is NaOH and KOH and assistant composition is Na2PbO2 or K2PbO2 and NaNO3 or NaNO2 has excellent detinning effects when the temperature of detinning solution is 40-80℃ and the temperature of the reflow conductor roll reaches 40-70℃. After the adhering tin layer of the reflow conductor roll is removed, the roughness of the reflow conductor roll can resume to 4.0 μm, its service life increases by 80%, and the repairing cost decreases by 90%.

Failure Mechanism of Reflow Conductor Roll of Electroplating Tinning Line

The surface roughness of reflow conductor roll was checked on membrane sample. The surface morphology of conductor roll was observed by microscope, and the composition of adhered layer on conductor roll surface was analyzed by X-ray spectroscope. The results show that tin adhesion is the main reason for failure of conductor roll, and the failure of conductor roll is accelerated by wear. The measures to decrease tin adhesion and improve wear resistance were put forward.

暖通空调给排水管道的表面改性与性能研究

为提升暖通空调铜合金排水管的表面性能,采用化学镀的方法在铜合金排水管表面制备了Ni-P/TiN镀层,研究镀液中TiN质量浓度对化学镀层物相组成、表面及截面形貌、硬度和耐磨性能的影响。结果表明,无镀层的铜合金基体主要物相为CuZn和CuZn5,表面镀层主要由非晶Ni组成;在基础镀液中适当添加TiN会形成镀层质量较好的含有胞状颗粒的镀层,而过量的TiN添加会使得镀层质量恶化。相较铜合金基体,表面镀层的硬度明显更高,且表面镀层硬度会随着镀液中TiN质量浓度的增加而增大;当TiN质量浓度为10 g/L时,表面镀层的硬度和磨损率分别为633 HV0.1和0.93×10^(-8)g/(r·N),具有相对较好的耐磨性,此时的磨损机制主要为氧化磨损。

Ti微合金化热轧高强钢带性能试验研究

针对Ti微合金化高强钢带力学性能波动的问题,进行炼钢生产工艺优化,开展不同工艺对低合金高强钢热轧钢带力学性能影响的研究。原炼钢工艺为先将钢水在氩站进行钛合金化,然后直接送连铸机浇铸。为了进一步提高钢水洁净度、改善产品质量、增强力学性能稳定性,在原炼钢工艺中增加LF精炼工序,并进行新工艺试验。结果表明:钢水经过LF精炼处理,钢中硫含量从0.010%左右降低到0.005%左右,TiN夹杂物颗粒尺寸减小到10μm以内,能够使Ti微合金化高强钢热轧钢带的纵向冲击功提高43 J、横向冲击功提高38.9 J,并且具有良好的0℃低温冲击性能,保持产品力学性能稳定。

不同黏度合成油下CrN/TiN多层薄膜的摩擦学特性研究

目的探究在不同黏度合成酯润滑油的作用下,CrN/TiN多层薄膜的摩擦学性能及协同润滑机制。方法选用聚α烯烃(PAO)与三羟甲基丙烷辛癸酸酯(TME)复配,得到不同黏度梯度的合成油。利用全自动黏度测定仪、倾点测试仪、开口闪点测定器和傅里叶变换红外光谱仪(FTIR)分别对合成油的运动黏度(40、100℃)、倾点、闪点和表面官能团进行表征。利用反应磁控溅射技术在316不锈钢和单晶硅片基底表面制备CrN/TiN多层薄膜。采用X射线衍射仪和FIB-TEM表征手段对薄膜的微观结构进行分析,并用纳米压痕仪和划痕仪测试了薄膜的力学性能。利用球-盘式摩擦试验机表征薄膜在干摩擦和油润滑条件下的摩擦学性能,利用XPS对摩擦实验后的磨痕元素价态进行表征。结果CrN/TiN薄膜具有典型的面心立方结构(FCC)、异质多层结构,且其硬度可达32.2 GPa。在干摩擦条件下,与裸316基体相比,经表面镀制CrN/TiN薄膜后平均摩擦因数由0.95降至0.71,磨损深度由25.0μm降至16.8μm。在合成油作用下,316不锈钢-GCr15钢球(钢-钢摩擦副)、CrN/TiN多层薄膜-GCr15钢球(CrN/TiN多层薄膜-钢摩擦副)2种摩擦配副的摩擦因数和磨损率随着合成油黏度的增加均呈现降低趋势,且在同一黏度条件下薄膜试样的磨损率更低。结论CrN/TiN多层薄膜在PAO与TME复配获得的一系列不同黏度合成油的作用下,随着合成油黏度的增加,薄膜的磨损率和磨损深度逐渐下降,其减摩抗磨性能得到显著提升。通过磨痕表面的XPS分析可知,合成油中极性的酯基吸附在滑动界面,增强了油膜的承载性能,从而减缓了对偶间的摩擦阻力。

IN718镍基高温合金熔体脱氮和TiN析出热力学研究

低氮含量可控制TiN夹杂物生成,从而提高镍基高温合金冶金质量和综合性能。通过比较镍基和铁基金属液中标准吉布斯自由能和合金元素对N、Ti活度相互作用系数的差别,指出镍基和铁基中两套不同的热力学数据,二者不能混用。以目前已有的镍基高温合金的热力学参数建立了IN718合金脱氮热力学模型,得出在满足其他冶炼条件的前提下,适当降低温度和提高真空度以降低氮气分压是降低合金液中氮含量的直接手段,以及不同合金元素加入对脱氮的不同影响。同时,建立TiN析出的热力学模型以及偏析模型,计算结果得出,在IN718的生产温度1450℃条件下,控制合金液中的w[N]在43.69×10^(-6)以下,凝固过程中溶质元素N、Ti在液相中富集TiN析出,计算析出温度为1468 K,此时固相分率fs为0.829。若要控制固相分率fs分别在90%或95%以上才会析出TiN夹杂物,w[N]需分别控制在25.00×10^(-6)和15.00×10^(-6)以下。

基于机械干态颗粒涂层技术制备cBN@TiN粉体

采用机械干态颗粒涂层技术分别制备了cBN@TiO_(2)(TiO_(2)包覆立方氮化硼)粉体和cBN@(TiO_(2)+C)(TiO_(2)+碳包覆立方氮化硼)粉体,然后在1600℃、N_(2)气氛下进行高温热处理制备cBN@TiN(TiN包覆立方氮化硼)粉体,研究了高温热处理前后粉体的物相组成与微观形貌以及高温反应机理。结果表明:机械干态颗粒涂层技术可以使纳米TiO_(2)和纳米TiO_(2)+C颗粒均匀包裹在cBN颗粒表面。在高温热处理过程中,TiO_(2)与cBN反应生成液相B_(2)O_(3),促进了cBN相变成六方氮化硼(hBN),cBN的高温稳定性差,以cBN@TiO_(2)为原料制备的cBN@TiN粉体颗粒表面形成由TiN相和hBN相组成的片状结构层;当存在碳时,TiO_(2)会优先与碳发生还原反应生成TiN,抑制B_(2)O_(3)的生成,从而降低cBN相变量,此时cBN的高温稳定性好,以cBN@(TiO_(2)+C)为原料制备的cBN@TiN粉体颗粒表面形成主要为TiN相的颗粒结构层。

Visible-to-near-infrared photodetectors based on SnS/SnSe_(2)and SnSe/SnSe_(2)p−n heterostructures with a fast response speed and high normalized detectivity

The emergent two-dimensional(2D)material,tin diselenide(SnSe_(2)),has garnered significant consideration for its potential in image capturing systems,optical communication,and optoelectronic memory.Nevertheless,SnSe_(2)-based photodetection faces obstacles,including slow response speed and low normalized detectivity.In this work,photodetectors based on SnS/SnSe_(2)and SnSe/SnSe_(2)p−n heterostructures have been implemented through a polydimethylsiloxane(PDMS)−assisted transfer method.These photodetectors demonstrate broad-spectrum photoresponse within the 405 to 850 nm wavelength range.The photodetector based on the SnS/SnSe_(2)heterostructure exhibits a significant responsivity of 4.99×10^(3)A∙W^(−1),normalized detectivity of 5.80×10^(12)cm∙Hz^(1/2)∙W^(−1),and fast response time of 3.13 ms,respectively,owing to the built-in electric field.Meanwhile,the highest values of responsivity,normalized detectivity,and response time for the photodetector based on the SnSe/SnSe_(2)heterostructure are 5.91×10^(3)A∙W^(−1),7.03×10^(12)cm∙Hz^(1/2)∙W−1,and 4.74 ms,respectively.And their photodetection performances transcend those of photodetectors based on individual SnSe_(2),SnS,SnSe,and other commonly used 2D materials.Our work has demonstrated an effective strategy to improve the performance of SnSe_(2)-based photodetectors and paves the way for their future commercialization.

真空热处理对不锈钢表面TiN薄膜结构及性能的影响

为提高不锈钢材料在海洋环境中的耐腐蚀能力,采用磁控溅射技术在304不锈钢表面沉积TiN薄膜,并在不同温度下对其进行真空热处理,研究热处理温度对TiN薄膜结构及性能的影响。结果表明:适当的真空热处理可提高304不锈钢表面TiN薄膜的结晶度及致密性,缓解其残余应力。与未处理薄膜相比,500℃真空热处理后薄膜内部应力可降低87%,与基底的结合强度提高78%,其腐蚀电流密度由2.42×10^(-6)A/cm^(2)降低到4.43×10^(-7)A/cm^(2),腐蚀电位由-0.247 V提高到-0.044 V,耐腐蚀性能明显提升。

用于GaN基HEMT栅极金属TiN的ICP刻蚀工艺

GaN基高电子迁移率晶体管(HEMT)在射频(RF)通信及新能源汽车领域有着巨大的应用潜力。TiN材料因其良好的热稳定性、化学稳定性及工艺兼容性,可用作GaN基HEMT的栅极材料。采用ULVAC公司生产的NE-550型电感耦合等离子体(ICP)刻蚀设备对TiN材料进行了干法刻蚀工艺的研究。采用光刻胶作为刻蚀掩膜,Cl_(2)和BCl_(3)混合气体作为工艺气体,通过调整工艺参数,研究了ICP源功率、射频(RF)偏压功率、腔体压力、气体体积流量以及载台温度对TiN刻蚀速率和侧壁角度的影响。最后通过优化工艺参数,得到了TiN刻蚀速率为333 nm/min,底部平整且侧壁角度为81°的栅极结构。

含钛焊丝钢水口结瘤原因分析及改进

针对含钛焊丝钢SJ-60连铸过程中水口结瘤问题,通过XRF、XRD和SEM等手段,分析水口结瘤物的元素含量、物相组成及界面反应。结果发现,水口内壁因脱碳反应而变得粗糙多孔,导致高熔点物相易于侵入;此外,精炼过程喂钙处理和耐材侵蚀,会使钢液生成大量CaTiO_(3)和MgAl_(2)O_(4),二者在水口内壁沉积是导致水口结瘤的主要原因。实践表明,采用低钛低铝硅铁替代普通硅铁,将钢中w[Al]由0.0080%~0.0095%降低至0.0050%~0.0065%,有利于减少钢中Al_(2)O_(3)夹杂物含量;取消精炼钙处理,将钢中w[Ca]由>0.0014%降低至<0.0005%,有利于减少钢中CaTiO_(3)夹杂物含量;将萤石用量由0.8~1.0kg/t降低至0.3~0.5kg/t,减轻耐材侵蚀,渣中w(MgO)由>10%降低至<5%,有利于减少钢中MgAl_(2)O_(4)夹杂物含量。通过以上措施,有效解决了CaTiO_(3)和MgAl_(2)O_(4)引起的水口结瘤问题,连浇炉数由4~5炉提高至12炉以上。

Structural Controls and Predictive Mapping of Tin, Niobium and Tantalum Mineralization Associated with the Mayo Darlé Stanniferous Granitoids;Contributions of Geostatistics

The aim of this study of the spatial dispersion of tin, niobium and tantalum mineralization associated with the Mayo Darlé granitoids was to produce prospecting guides through predictive maps of Sn, Nb and Ta in the region. It was based on a database (in appendix) obtained after analysis of rock samples (greisens and quartz veins) collected in the field, using a portable X-ray fluorescence (XRF) spectrometer. Two approaches were used: 1) structural studies in the field using the directions of veins and fractures 2) the use of variographic maps, an essential element in geostatistics for determining directional anisotropies. A joint synthesis of the modelling results shows that tin, tantalum and niobium mineralization at Mayo Darlé is concentrated along strike intervals N315E to N320E, with mineralization also occurring along strike N35E for high-grade Sn, medium-grade Ta and low-grade Nb. In short, mineral concentrations disperse progressively in space: positively from east to west for tantalum and niobium, and inversely for tin.

Optimization of Tin-Doped Hybrid Perovskite Solar Cells

Perovskites are a category of materials with a unique crystal structure that allows them to absorb sunlight efficiently. This efficiency is particularly high in the case of CH3NH3Pb1-xSnxI3 mixed perovskites. The combination of lead (Pb) and tin (Sn) in this matrix provides a broad spectrum of sunlight absorption, enabling the generation of a larger voltage and, subsequently, increased power. The primary objective in solar cell development is to maximize the conversion of sunlight into electricity. Mixed perovskites like CH3NH3Pb1-xSnxI3 have demonstrated significant potential in this regard. Their tunable bandgap, courtesy of varying the Pb: Sn ratio, allows for the optimization of sunlight absorption. The result is solar cells that surpass many conventional counterparts in terms of energy efficiency. Another significant advantage of these mixed perovskite solar cells is their cost-effectiveness. They can be manufactured using solution-based processes, which are less expensive than the high-vacuum methods required for traditional silicon solar cells. While the prospects for mixed perovskite solar cells are undeniably promising, there are concerns about the toxicity of lead, a key component of these cells. Lead is known to have harmful effects on the environment and health. The aim of our work is to reduce or eliminate lead toxicity in the perovskite cell while maintaining its efficiency. Thus, in a theoretical and experimental approach, we obtained following efficiencies of samples: CH3NH3PbI3 (22.49%) CH3NH3Pb0.75Sn0.25I3 (22.72%), CH3NH3Pb0.5Sn0.5I3 (23.00%) CH3NH3Pb0.25Sn0.75I3 (22.61%), CH3NH3SnI3 (22.38%). Doping with 50% tin gives the highest result (23.00%). By replacing a fraction of the lead with tin, the research aims to reduce the environmental footprint of the cells while maintaining their high performance. However, the challenge is to achieve a balance that does not compromise performance while reducing toxicity. .

SUS321不锈钢波纹管液压成形组织演变和疲劳性能

为了探究汽车排气系统波纹管的疲劳寿命影响机理,基于ABAQUS软件建立了某型号汽车波纹管液压成形和静力学分析有限元模型,通过扫描电子显微镜、X射线衍射等测试手段研究了不同特征区成形后的组织演变机理。由于波纹管高周疲劳试验条件的局限性,采用预应变模拟法实现了波谷区的高周疲劳加载。有限元结果表明,成形后波谷处真应变为0.03~0.10,波峰处为0.20~0.29,轴向拉伸、周向扭转和横向弯曲3种实际工况条件下的应力集中都在波谷处。物理试验结果表明,液压成形后不同特征区形变诱导马氏体相变程度随应变上升不断增强,TiN轴比先变大后又由于发生破碎进而降低。通过对比0.1预应变试样和波谷试样的组织形貌差异验证了物理模拟试验的有效性。高周疲劳试验结果显示,成形带来的亚稳态奥氏体含量降低和TiN伸长对波谷区疲劳性能有较大损害。

轻轨建筑钢结构的表面防护与性能研究

对轻轨钢结构用Q345钢进行了表面激光熔覆,对比分析了GH 625熔覆层和添加不同含量WC和TiN熔覆层的显微形貌、物相组成、拉伸性能、电化学性能和耐磨性能。结果表明,GH625熔覆层的物相主要为γ-Ni、FeNi_(3)、M_(23)C_(6)和NbC;熔覆层中WC含量增加至10%及以上时,熔覆层中还出现了WC、W_(2)C、M_(6)C相;5%TiN和10%TiN熔覆层的物相为γ-Ni、FeNi_(3)、TiN、NbC和M_(23)C_(6)相。在GH625中添加一定含量的WC或者TiN后可以抑制晶粒长大和熔覆层中Laves相的形成。WC熔覆层和TiN熔覆层的耐腐蚀性能都优于Q345钢和GH625熔覆层,且15%WC熔覆层的耐腐蚀性能最好;Q345和熔覆层的磨损失重从小至大顺序为:15%WC<5%TiN<20%WC<10%WC<10%TiN<5%WC<GH625<Q345,熔覆层的耐磨性能都优于Q345钢,且15%WC熔覆层耐磨性能最佳,磨损机制为黏着磨损和轻微磨粒磨损。

温度对汽车零部件切削加工用PCBN复合材料结构与性能的影响研究

以TiN作为主要结合剂,加入一定量的Al粉和Ti粉,研究了烧结温度(1300~1600℃)对TiN⁃Al⁃Ti结合立方氮化硼(CBN)烧结合成聚晶立方氮化硼(PCBN)复合材料的组成、显微结构以及力学性能的影响。结果表明,PCBN试样的物相主要为BN、TiB_(2)、TiN、AlN,烧结过程中Ti与CBN反应生成TiN和TiB_(2)相;PCBN的相对密度、抗弯强度以及硬度随着烧结温度升高总体上呈上升趋势。1500℃烧结时,可以得到综合性能好的复合材料,其相对密度、抗弯强度、断裂韧性和显微硬度分别为99.1%、807.8 MPa、6.2 MPa·m^(1/2)和3233HV。

超临界汽轮机20Cr1Mo1VNbTiB螺栓开裂行为分析

针对某660 MW超临界汽轮机运行过程中高、中压调速汽阀的20Cr1Mo1VNbTiB高温紧固螺栓发生大规模早期开裂失效问题,利用断口分析、成分分析、力学性能分析及微观组织结构分析等试验方法对螺栓大规模开裂行为进行了研究。结果表明:在预紧力和汽阀动作形成的冲击载荷共同作用下,具有缺口效应且应力集中的螺纹牙底部TiN颗粒以自身碎裂、尖角处开裂及附近基体高应力畸变区开裂等模式萌生微裂纹并互相串连形成裂纹源,在载荷作用下快速扩展引发螺栓开裂;组织中大量TiN颗粒破坏了基体的连续性,降低了合金的韧性和抗裂能力,导致脆性开裂。因此,合金冶炼过程中应严格控制钢液中Ti质量小于0.1%,通过优化控制冷却速度,提高钢中细小氧化物的生成量来控制TiN析出相的尺寸和生成量,降低其有害作用,起到Ti合金化的真正目的。

纳米氮化钛薄膜对高频陶瓷窗片二次电子发射率的影响研究

纳米TiN薄膜可用来抑制高频陶瓷窗片的二次电子倍增,缩短器件高功率老炼时间,提高微波发射性能。文章通过专用真空镀膜设备,采用同轴圆柱靶和平面靶的直流磁控反应溅射方法,通过优化制备工艺参数,在陶瓷窗片的表面成功制备了纳米氮化钛(TiN)薄膜。采用扫描电子显微镜(SEM)、X射线衍射仪(XRD)、X射线光电子能谱仪(XPS)等现代分析手段进行了测试分析,结果表明:纳米TiN薄膜表面晶粒细小,致密度较好;晶面(111)和(200)特征衍射峰峰型规整,峰宽细窄;Ti/N原子计量比接近于1∶1。随着薄膜沉积时间增加,二次电子发射系数(SEY)逐渐增大,溅射时间8.4 s时,SEY为1.72;随着基体偏压的增加,电离效率增加,SEY不断降低,当偏压为350 V时,SEY为1.89;随着N2流量增加,SEY发生变化,当N2流量为38 mL/min时,SEY为1.83。

掺铜TiN涂层和离子液复合润滑体系对铜/铜摩擦副载流摩擦学性能的影响

通过多弧离子镀技术在铜基体上制备了TiN及其掺杂原子分数10%和12%铜的涂层,用1-辛基-3-甲基咪唑双(三氟甲烷磺酰)亚胺盐(OMImNTf_(2))和1-十二烷基-3-甲基咪唑双(三氟甲烷磺酰)亚胺盐(C_(12)MImNTf_(2))2种离子液作为润滑剂,研究了涂层与离子液组成的复合润滑体系对不同电压(0.5,1 V)下铜/铜摩擦副的载流摩擦学性能的影响。结果表明:在电压相同条件下,TiN涂层与OMImNTf_(2)复合润滑体系具有较好的协同润滑效果,TiN涂层与C_(12)MImNTf_(2)复合润滑体系具有较好的导电性能;在掺铜TiN涂层和2种离子液复合润滑体系下摩擦副的摩擦因数和接触电阻差别很小。当电压由0.5 V增大到1 V时,在TiN涂层、掺杂原子分数10%铜的TiN涂层与C_(12)MImNTf_(2)组成的复合润滑体系下摩擦副的摩擦学性能更稳定。掺杂原子分数12%铜的TiN涂层的摩擦副具有最小的摩擦因数和接触电阻。

21Cr超纯铁素体不锈钢TiN析出的热动力学研究

非金属夹杂的数量和尺寸控制对钢铁的加工性能与使役行为有着重要影响.基本凝固理论对21Cr超纯铁素体不锈钢中TiN的析出条件进行数值求解,从理论上研究了TiN的热力学、动力学形成条件与析出规律.结果表明:试验钢钢液中无TiN析出,凝固过程中固液界面前沿发生溶质偏析富集,促使TiN在固相率f_(s)为0.15时开始析出.析出的TiN尺寸受钢液中Ti、N元素初始含量与凝固冷却速率的影响,降低Ti、N初始含量,提升凝固冷却速率均可减小TiN半径,Ti,N元素含量对TiN尺寸影响更加敏感,可通过降低钢液中N元素初始含量延迟凝固过程中TiN夹杂物的析出.实际生产中可调控钢液中Ti的添加量,使得TiN的数量与尺寸分布更加合理.