激光定向能量沉积Al-Mg-Sc-Zr修复5083-H112铝合金的组织和性能

激光定向能量沉积增材修复技术具有时间短、效率高、成本低、力学性能好等优点,具有很大的发展潜力。采用Al-7.5Mg-0.3Sc-0.28Zr作为修复材料对轨道交通用5083-H112铝合金进行激光修复实验,得到了致密、无缺陷的修复试样,并对其组织和性能进行研究,探讨了激光修复铝合金的可行性。结果表明,熔合线附近过渡区可划分为修复区、部分熔化区、热影响区和母材。修复区为完全等轴晶,由平均晶粒尺寸为4.95μm的细晶带和18.34μm的粗晶区组成。从修复区到部分熔化区再到热影响区的过渡区域,Al元素含量逐渐升高,Mg元素含量逐渐下降,硬度逐渐下降,修复后母材未被软化。由于激光增材制造技术的快速凝固,在熔合线附近的细晶带有较大的应力集中,由于较小的热输入在部分熔化区、热影响区的残余应力较小。修复试样的屈服强度为(152±2)MPa,为母材的89.4%;抗拉强度为(305±5)MPa,为母材抗拉强度的100%;伸长率为(15.5±0.5)%,为母材的85.2%;断裂发生在强度较弱的母材。高性能的激光修复铝合金是可实现的,具有广泛的应用前景。

激光定向能量沉积Ti-6Al合金的组织与性能研究

激光定向能量沉积成形钛合金具有高效快速、材料利用率高等优势,但其较大的冷却速率及温度梯度等固有特性使得成形的钛合金容易出现各向异性,因此有必要对激光定向能量沉积钛合金不同平面及不同方向上的组织与性能进行研究。选定Ti-6Al合金作为研究对象,采用光学显微镜、X射线衍射仪、扫描电镜和电子背散射衍射对激光定向能量沉积Ti-6Al合金物相、微观组织形貌和晶粒特征进行研究。结果表明,合金中只存在单一的α相,该物相为HCP结构;Ti-6Al合金不同成形高度表现出不同的微观组织特征,即沿着构建方向,底部为细小的等轴晶,中间为柱状晶,顶部为等轴晶/近等轴晶。在XOY面的平均晶粒尺寸最小,为22.2519μm;YOZ面存在最大的晶粒尺寸,为38.9408μm。在3个不同平面中,XOY面的小角度晶界体积分数最高,为19.5%;YOZ面小角度晶界体积分数最低,为12.2%。沿Z方向上,即与建造方向平行时抗拉强度最高,为669.94 MPa,相应的伸长率为13.9%;沿X方向上抗拉强度为560.55 MPa,其相应的伸长率最低,为11.4%。

选择性激光熔化成形关键基础问题的研究进展

SLM技术集成了先进的激光技术、计算机辅助设计与制造(CAD/CAM)技术、计算机控制技术、真空技术、粉末冶金技术。SLM技术的出现给复杂金属零件的制造带来了一场革命。当前,SLM技术的研究正成为热点并受到国内外学术界和制造界的广泛重视。

Friction heat production and atom diffusion behaviors during Mg-Ti rotating friction welding process

An innovative physical simulation apparatus, including high speed camera, red thermal imaging system, and mechanical quantity sensor, was used to investigate the friction heat generation and atom diffusion behavior during Mg-Ti friction welding process. The results show that the friction coefficient mainly experiences two steady stages. The first steady stage corresponds to the Coulomb friction with material abrasion. The second steady stage corresponds to the stick friction with fully plastic flow. Moreover, the increasing rates of axial displacement, temperature and friction coefficient are obviously enhanced with the increase of rotation speed and axial pressure. It can also be found that the there exists rapid diffusion phenomenon in the Mg-Ti friction welding system. The large deformation activated diffusion coefficient is about 105 higher than that activated by thermal.

Recovery of indium by acid leaching waste ITO target based on neural network

The optimized leaching techniques were studied by technical experiment and neural network optimization for improving indium leaching rate. Firstly, effect of single technical parameter on leaching rate was investigated experimentally with other parameters fixed as constants. The results show that increasing residual acidity can improve leaching rate of indium. Increasing the oxidant content can obviously increase leaching rate but the further addition of oxidant could not improve the leaching rate. The enhancement of temperature can improve the leaching rate while the further enhancement of temperature decreases it. Extension leaching time can improve the leaching rate. On this basis, a BPNN model was established to study the effects of multi-parameters on leaching rate. The results show that the relative error is extremely small, thus the BPNN model has a high prediction precision. At last, optimized technical parameters which can yield high leaching rate of 99.5%were obtained by experimental and BPNN studies：residual acidity 50-60 g/L, oxidant addition content 10%, leaching temperature 70 ℃ and leaching time 2 h.

Viscoplastic friction and microstructural evolution behavior of laser-clad Co-Cr-Ni-Mo coating

The viscoplastic friction and nanostructure formation mechanism of laser-clad Co-based coating were studied by rotary friction between laser-clad Co-Cr-Ni-Mo coating and WC-Co rod.The friction coefficient,friction interface temperature and axial displacement—time curves during rotary friction process were measured.The results showed that all the curves firstly experienced rising stage and then steady stage.The rising stage corresponded to sliding friction while the steady stage corresponded to viscoplastic friction.After viscoplastic friction processing,three typical zones of viscoplastic deformation zone,thermo-mechanically affected zone,and original laser-clad zone can be observed successively from the friction surface to the interior.The viscoplastic deformation significantly crushed the network M23C7 phase in original laser-clad zone and made it dispersively distributed with equiaxial shape and in nano-scale.The viscoplastic zone,in width of 37-131 μm,is mainly characterized by refined M23C7 and α-Co phase with grain size bellow 50 nm,and even a small quantity of amorphous.Thus,the hardness of viscoplastic zone about HV997 was improved compared with the hardness of original laser-clad zone about HV600.

织构对激光定向能量沉积Ni_(50.8)Ti形状记忆合金超弹性的影响

NiTi形状记忆合金由于热弹性马氏体相变而表现出优异的超弹性和形状记忆效应,被广泛应用在医疗器械、航空航天等领域。采用激光定向能量沉积工艺制备Ni_(50.8)Ti形状记忆合金,通过室温压缩实验和循环压缩实验分析成形角度对合金超弹性及其稳定性的影响规律,借助X射线衍射分析、电子背散射衍射等表征手段分析不同成形角度合金的微观组织和织构特征,进而深入研究微观组织和织构对Ni_(50.8)Ti形状记忆合金超弹性及其稳定性的影响。结果表明:采用激光定向能量沉积制备的Ni_(50.8)Ti形状记忆合金由B2奥氏体相组成,基体成分均匀,无开裂现象。与Y轴呈90°的合金在室温下呈现出最佳的超弹性,0°的合金超弹性最差。同时,45°的合金呈现出强〈112〉织构,90°的合金呈现出强〈110〉织构,强织构合金的超弹性比弱织构(60°)和不利取向(0°)合金的超弹性更好,织构对于Ni_(50.8)Ti形状记忆合金的微观组织和超弹性具有显著的影响。

泡沫镍基Ni-S-Co涂层电沉积制备工艺

以泡沫镍为基体用电沉积法制备了Ni-S-Co非晶合金电极,通过测定电极在30%KOH溶液中的阴极极化曲线,研究了不同沉积条件(硫酸钴掺杂浓度、电流密度、电沉积温度、电沉积时间、镀液pH值)对镀层析氢性能的影响,并用XRD、SEM对镀层进行了表征。结果表明:所获得的镀层为非晶态结构,镀层表面颗粒分布均匀且具有很大的比表面积。确定了较佳电沉积工艺条件:硫酸钴掺杂浓度为10 g/L、电流密度为50 mA/cm2、镀液温度为50℃、电沉积时间为40 min、镀液pH值为4。

新工科背景下粉体材料专业创新创业教育的若干思考

在我国大力支持与发展新工科的背景下,创新创业成了这场高等工程教育的主旋律,材料类学科作为新工科发展的基石专业,在我国经济发展中也占据着重要地位,材料类人才的培养也成为提高国家核心竞争力的重要目标。培养新工科背景下的专业“双创人才”,行之有效地将专业教育与创新创业教育相融合,已然成为工程教育改革的重要任务。文章围绕粉体材料专业创新创业教育存在的主要问题进行讨论,提出了材料类专业教育应与创新创业教育相融合,对工科类创新创业教育进行改革,搭建工科创新创业教育实践平台,并探索“产学研”三位一体教育模式,逐步形成中国特色工科创新创业教育的新体系。

现代粉末冶金材料与技术进展

本文概述了建国70年以来中国粉末冶金材料的发展状况,包括铁基粉末冶金材料、硬质合金、粉末冶金磁性材料、粉末冶金高温合金等先进粉末冶金材料,以及国内外在粉末增材制造、放电等离子烧结等粉末冶金先进成形领域的发展状况,为现代粉末冶金材料及技术的发展提供了新的思路。

激光制造微细规则可控多孔金属方法

将国际上大力倡导发展的3D打印技术中的一种-选择性激光熔化(Selective Laser Melting,SLM)技术用于多孔金属的制造,具体研究通过改变激光扫描方式产生规则可控孔隙的方法,采用电子扫描显微方法进行检测,分析激光扫描工艺对于孔隙特征的影响.结果表明:采用SLM制造方法可形成多种特征孔隙结构多孔金属,并能够制造复杂多孔金属零件,拓宽了多孔金属材料的应用领域.

电沉积制备Ni-S涂层电极的研究

以泡沫镍为基体电沉积制备了Ni-S涂层电极。通过对电流密度、电沉积温度、电沉积时间和镀液pH值等条件对涂层析氢性能影响的研究,确定了适宜的电沉积工艺条件;电极涂层的XRD、SEM测试结果表明涂层为非晶态结构、表面颗粒大小均匀且具较大表面积;电解过程中出现了Ni3S2由非晶态向晶态的转变,由于Ni3S2具有较强的吸附氢能力,是析氢反应的催化活性中心,电解过程中Ni3S2的出现降低了电极的析氢电位。模拟电解水实验结果表明泡沫镍基Ni-S涂层电极较Raney-Ni电极具有更好的析氢活性。

Pb·Ag阳极涂层制备及其电催化析氧性能

基于提升湿法冶金中Pb-Ag阳极析氧活性、降低析氧过电位的目的,通过电镀技术在室温条件下制备了一系列不同涂层的Pb-Ag阳极。采用X射线衍射和扫描电镜对涂层的晶体结构和表面形貌进行了表征。并运用线性扫描(LSV)、循环伏安(CV)和交流阻抗(EIS)技术分析比较了不同阳极涂层的电化学性质。研究表明,加入Mn2+、Co3+可促进阳极析氧反应的动力学过程,其中加入Mn2+的作用强于Co3+;同时加入Mn2+和Co3+的电极比单独加入Mn2+或Co3+离子的电极对析氧反应的促进更明显,说明具有双复合涂层(PbO2/MnO2/Co3O4)的铅基阳极最能有效促进氧气的析出,降低铅基阳极板的析氧电位。

Preparation of ultra-fine grain Ni-Al-WC coating with interlocking bonding on austenitic stainless steel by laser clad and friction stir processing

The ultra-fine structured Ni?Al?WC layer with interlocking bonding was fabricated on austenitic stainless steel by combination of laser clad and friction stir processing (FSP). Laser was initially applied to Ni?Al elemental powder preplaced on the austenitic stainless steel substrate to produce a coating for further processing. The as-received coating was subjected to FSP treatment, processed by a rotary tool rod made of WC?Co alloy, to obtain sample for inspection. Microstructure, phase constitutions, hardness and wear property were investigated by methods of scanning electronic microscopy (SEM) with energy-dispersive X-ray spectroscopy (EDX) microanalysis, and X-ray diffraction (XRD), hardness test alongside with dry sliding wear test. The results show that the severe deformation effect exerted on the specimen resulted in an ultra-fine grain layer of about 100μmin thickness and grain size of 1?2μm. Synergy between introduction of WC particles to the deformation layer and deformation strengthening contributes greatly to the increase in hardness and friction resistance. An interlocking bonding between the coating and matrix which significantly improves bonding strength was formed due to the severe deformation effect.

Fe_2O_3粉末表面非均匀成核法包覆

为解决氧化铁红在高温下呈现不稳定性的问题,采用非均匀成核法使Si(OH)4和Al(OH)3均匀包覆在氧化铁红粉末颗粒表面,用X射线衍射仪、透射电镜、Zeta电位测定仪对包覆前后的Fe2O3粉末颗粒进行分析。结果表明,通过非均匀成核法可以制备出被SiO2和Al2O3包覆的Fe2O3复合粒子,其技术的关键是如何控制反应溶液pH值和涂层物质沉淀的反应浓度,以保持被覆颗粒稳定的悬浮特性。

Ni-S-Co涂层电极的制备及其电化学性能的研究

采用电沉积的方法以泡沫镍为基体制备出非晶Ni-S-Co合金电极。用电化学测试方法分析涂层的电化学行为。结果表明,较好的制备涂层电极条件为:CoSO4.7H2O掺杂浓度为10g/L,电流密度为50mA/cm2,温度为50℃,电沉积时间为40min,pH值为4。当电解电流密度为1200A/m2时,非晶Ni-S-Co合金电极的极化电位较非晶Ni-S合金电极低95mV,较Ni金属电极低405mV;根据Tafel曲线计算出Ni、非晶Ni-S以及非晶Ni-S-Co电极的表面活化能分别为49.5、40.3和38.6kJ/mol。Ni-S-Co电极具有更高的交换电流密度和更低的析氢活化能,因此具有更高的析氢催化活性。

泡沫镍基Ni-S-Co涂层电极在碱性介质中的电催化析氢性能

以泡沫镍为基体采用电沉积法制备非晶态Ni-S-Co合金涂层电极。以扫描电镜(SEM)和X射线衍射(XRD)观察表面形貌和微观结构,电化学测试方法分析涂层的电化学行为。结果表明,所获得的镀层为非晶态结构,表面颗粒细小且具有丰富的表面积;非晶态Ni-S-Co合金电极的析氢催化性能较好,与Ni和Ni-S电极相比具有较低的析氢过电位、较高的交换电流密度和较低的表观活化能;经过KOH碱溶液活化处理后,镀层表面颗粒变细,活性表面积增加,析氢性能有所增强。

添加剂Pr_2O_3和Er_2O_3对电沉积Ni-S合金电极性能的影响

以氧化镨、氧化铒为添加剂,在泡沫镍基体上电沉积制备Ni-S镀层电极。对镀层的表面形貌、镀层结构、电沉积行为及镀层的电化学性能进行研究。结果表明:电镀液中添加稀土氧化物后电沉积过程的阴极极化增强,沉积层晶粒细化,比表面积增大,因而电极的析氢过电位降低;其中,添加Pr2O3的Ni-S镀层在250 mA/cm2下碱性水电解时过电位降低达37 mV,且该镀层电极在碱性介质下具有较高的析氢活性和耐腐蚀性能,在100 h水电解实验中表现出较强的稳定性。

纯钛粉放电等离子烧结致密化的动力学与组织演变行为

放电等离子烧结（spark plasma sintering,SPS）具有快速致密化的显著特点,然而目前对SPS快速致密化的动力学行为缺少深入理解与认识。考虑到纯钛的优异性质及广泛应用,本文以纯钛粉为典型材料,在压强20 MPa、温度为600-875℃条件下,进行纯钛粉的SPS烧结,获得了其在不同温度下的致密化过程与时间的函数关系,揭示了其快速致密化的动力学行为。并深入探讨烧结温度对其微观组织、孔隙度及力学性能的影响。结果表明：在低温阶段（600-725℃）,致密化指数为1.5,扩散与高温蠕变共同作用实现样品的致密化;在温度较高时（800-875℃）致密化指数为2,此时主要为高温蠕变导致的致密,随温度升高,样品的维氏硬度增加,且温度越高增加速率越快,样品的力学性能提高。

不锈钢粉末的选择性激光熔化快速成形工艺研究

为了揭示选择性激光熔化快速成形过程中工艺对成形金属零件的影响规律,以不锈钢粉末为对象展开研究。首先,进行了单道扫描实验,结果表明水雾化制备的不锈钢粉末的单道扫描线不连续,球化现象严重,分析了其原因;然后,采用不同的成形工艺,成形出了金属块体,结果表明成形件的致密度与激光能量密度满足指数关系ρ=ρm-Aexp(-Ψ/K);最后,对选择性激光熔化成形件内部的显微组织进行了扫描电镜与光学显微分析,结果表明该组织极细小且不均匀,具有柱状和蜂窝状结构,熔化界面处的温度梯度最大,其组织变化最为剧烈。