极低温区循环载荷作用下Nb_(3)Sn复合超导体的变形损伤及其应变率效应数值模拟

Nb_(3)Sn超导体在循环载荷下的变形损伤行为研究对揭示超导体临界性能不可逆退化背后的力学机制具有重要意义。采用分子动力学模拟方法研究了极低温条件下单晶和多晶Nb_(3)Sn/Nb复合材料在循环载荷下的变形损伤行为,同时分析了应变率对Nb_(3)Sn/Nb复合材料变形损伤和断裂行为的影响。结果表明:单晶Nb_(3)Sn/Nb复合材料在循环载荷作用后,Nb_(3)Sn层出现滑移,当滑移带交错处的局部应力大于材料强度时,在滑移带交错处微裂纹萌生,致使复合材料中Nb_(3)Sn层断裂失效;而多晶Nb_(3)Sn/Nb复合材料则由于晶界处应力在循环载荷下得不到松弛,当应力峰值超过晶界强度时,在晶界处萌生微裂纹,导致复合材料中Nb_(3)Sn层发生沿晶断裂。Nb_(3)Sn/Nb复合材料在不同应变率下表现出不同的断裂方式。随着应变率的增加,单晶Nb_(3)Sn层中的滑移带数量增加,导致单晶Nb_(3)Sn/Nb复合材料的韧性增强。而多晶Nb_(3)Sn/Nb复合材料中,晶界对材料强度的影响随着应变率的增加而降低,高应变率下,复合材料在Nb_(3)Sn层局部断裂后具有较大的剩余强度。研究结果将有助于理解Nb_(3)Sn/Nb复合材料在循环载荷下的损伤演化过程,为材料的性能优化设计提供一定的理论指导。

Nb_(3)Sn复合超导体中复杂形貌晶粒及晶界的力学变形分析

Nb_(3)Sn复合超导体中的晶粒具有复杂的形貌,本文基于密排纤维增强复合材料的相关理论与多晶体有限元分析方法,建立Nb_(3)Sn复合超导体中晶粒及晶界变形的尺度耦合计算模型,该模型能较为真实地反映细观尺度下Nb_(3)Sn复合超导体的结构特征;利用该模型研究Nb_(3)Sn复合超导体在轴向拉伸与压缩加载模式下柱状晶区和等轴晶区的微观局部应力以及晶粒与晶界变形特征,并分析荷载下Nb_(3)Sn复合超导体中沿晶界的弹性变形变化特点。研究结果表明:在拉压加载条件下,Nb_(3)Sn多晶体的Mises等效应力表现出非均匀分布的特征,Nb_(3)Sn等轴晶晶界处以及柱状晶区域与等轴晶交界处为主要的应力集中区域;局部应力与加载应力的比值范围集中在0.11~1.28并沿晶界波动变化,变化幅值依赖于晶粒形貌和复合材料结构。相关结果有助于理解和揭示极低温环境下Nb_(3)Sn复合超导体的变形和其超导电性能力学效应的起源。

极低温下Nb_(3)Sn超导体单晶裂纹动态扩展模拟

研究Nb_(3)Sn超导体的损伤断裂行为对于揭示超导临界性能弱化背后的力学机制具有重要的意义。采用分子动力学模拟方法,研究了极低温下不含裂纹和含中心裂纹的Nb_(3)Sn单晶在力学拉伸变形作用下的断裂机制和裂纹扩展行为,同时分析了应变率效应对Nb_(3)Sn单晶断裂机制与裂纹扩展行为的影响。结果表明:不含裂纹的Nb_(3)Sn单晶在结构受力后出现滑移,滑移带上位错塞积导致应力集中,应力集中使原子键断裂从而萌生裂纹致使Nb_(3)Sn单晶断裂;而含中心裂纹的Nb_(3)Sn单晶则由于裂纹尖端应力集中使得原子键断裂形成微裂纹,裂纹扩展致使Nb_(3)Sn单晶断裂。Nb_(3)Sn单晶在不同的应变率下表现出不同的断裂机制,在低应变率下表现为脆性断裂,而在高应变率下表现为韧性断裂。

粉末装管法Nb_3Sn超导体反应热处理过程中的相转变

粉末装管法（PIT）制备的Nb3Sn股线由于能够提供高的临界电流和磁场，同时具有小的有效线径，可以用做下一代高场加速器的磁体。

高压下Nb_(3)Sn单晶的超导相转变

研究高压下Nb_(3)Sn单晶的超导相转变行为对探究力学变形诱导的材料超导性能弱化机理有重要意义。通过分子动力学模拟研究了Nb_(3)Sn单晶在高压下的原子尺度变形和晶体结构变化,在此基础上,建立了高压下Nb_(3)Sn单晶的超导相转变模型,模型预测结果与实验观测结果吻合较好。结果表明:静水压作用下,Nb_(3)Sn单晶体发生了明显的晶格畸变,但晶体结构保持完整;压力诱导的费米面上电子态密度的变化在高压下Nb_(3)Sn单晶体超导相转变中起主导作用。所得研究结果为研究高压下Nb_(3)Sn多晶体以及复合多晶体的相转变行为奠定了基础,同时有助于进一步认识Nb_(3)Sn材料超导性能的弱化机理。

Nb_(3)Sn金属间化合物材料的制备技术及其研究发展现状和发展趋势

Nb_(3)Sn金属间化合物材料具有很多优秀的性能,如较高的熔点、较高的密度、较高的力学性能,以及良好的耐磨损性能、良好的抗高温氧化性能、良好的耐腐蚀性能等。此外,Nb_(3)Sn金属间化合物材料还是具有超导性能的超导材料。本文主要叙述了Nb_(3)Sn金属间化合物材料的研究发展现状,并对Nb_(3)Sn金属间化合物材料的未来研究发展趋势和发展方向进行分析和预测。

连续CVD Nb_3Sn层生长的规律及特征的研究

本文讨论了连续CVD Nb_3Sn层沉积速率与生产速率或带速之间的关系。研究了一定工艺条件下连续CVD层厚与沉积时间的线性生长关系和过渡层厚形成的抛物线规律与Nb_3Sn层生长的特征。

Nb_(3)Sn超导线材中Ta层的去除及腐蚀机理

高质量的超导接头对于超导磁体的建造和后期稳定运行有着关键的作用。然而,针对Nb_(3)Sn线材,常常因为内部Ta阻挡层的存在而影响超导接头的制备。为了探究Nb_(3)Sn超导线材中Ta阻挡层的去除方法,选取内锡法制备的Nb_(3)Sn超导线材为实验对象,研究了线材在HF溶液、HF气氛、HF和H_(2)O_(2)混合溶液以及HF和HNO_(3)混合溶液中的腐蚀行为和特征,利用SEM和OM分析了线材微观结构和腐蚀形貌。结果表明,Ta层在HF和HNO_(3)混合溶液中腐蚀最快,在HF和H_(2)O_(2)混合溶液中次之,在HF气氛中较慢,在HF溶液中最慢。综合腐蚀后效果,采用HF和H_(2)O_(2)混合溶液进行腐蚀是去除Nb_(3)Sn超导线材中Ta阻挡层的最佳方法。同时,选取高纯Ta片为研究对象,分别在上述介质中进行腐蚀实验,并通过OM、XRD和XPS观察和分析试样腐蚀形貌、物相结构变化和腐蚀溶液中的元素价态,揭示了Ta的腐蚀机理,氧化剂的存在可以通过加快Ta表面Ta_(2)O_(5)膜的形成来加快HF对Ta的腐蚀速率。

Microstructure evolution of Nb_3Sn superconductors during diffusion treatment by bronze route

The element diffusion process of Nb_3Sn superconductors by bronze route was studied using X-ray diffraction, scanning electron microscopy and energy dispersive spectroscopy. The critical current of superconductors was measured by four-point method. The results show that a diffusion layer has formed around the boundaries between the filaments and bronze matrix after 15 h heat treatment. The diffusion layer thickness keeps stable after heat treatment duration of 50~75 h. The stable and solid Nb 3 Sn layer is obtained in the sample after 100 h heat treatment. Excessive heat treatment would induce superconductivity degeneration because of superconductor grain coarsening. The characteristics of the element diffusion process were discussed. The diffusion of tin atom is the governing factor in diffusion. In this study, Nb_3_Sn superconductors with good superconducting property were fabricated successfully at 670 °C after 100h heat treatment.

力学反作用下Nb_(3)Sn高场超导线圈磁-热不稳定性研究现状和挑战

Nb_(3)Sn线圈是高场磁体的关键核心部件,在高能物理、先进医疗、磁约束核聚变等方面有重要应用.然而国内外在Nb_(3)Sn高场磁体制备后的测试过程中,遇到大量磁通跳跃,导致超导载流能力急速下降,严重影响失超保护,容易诱发过早失超.另外,超导线圈在强磁场、大电流环境下发生明显力学变形,而且超导电磁性能对力学变形很敏感,所以力学应变下Nb_(3)Sn线圈磁-热不稳定性成为研制高场超导磁体亟待解决的难题之一.在造价高昂和后期很难修补和改造的背景下,发展Nb_(3)Sn超导线圈磁-热不稳定性数值模拟方法,揭示电磁力对磁通跳跃和失超的影响机制,对抑制超导线圈磁通跳跃的优化设计和加快高场Nb_(3)Sn磁体研制进度有重要意义.本文回顾了Nb_(3)Sn高场磁体应用中涉及的力-电-磁-热多场耦合问题的研究现状,梳理了Nb_(3)Sn超导线圈在应用中涉及的复杂本构关系、超导线圈磁-热稳定性和力学反作用这三个亟待解决的关键科学问题,并探讨了其中的困难和挑战.

多芯绞扭Nb_(3)Sn超导股线弹塑性损伤和临界电流不可逆退化的细观力学建模

Nb_(3)Sn被广泛接受是实现高场超导磁体的关键材料.然而,Nb_(3)Sn是脆性材料且其超导性能具有应变敏感性.在强磁场应用中,Nb_(3)Sn股线会受到显著的弹塑性应变甚至损伤,导致其载流能力下降.本文基于细观力学方法建立了三维平均场均匀化模型,研究多芯绞扭Nb_(3)Sn超导股线的弹塑性损伤行为和临界电流的不可逆退化.计算股线在单调和循环载荷作用下的等效应力-应变曲线以及Nb_(3)Sn内部的应变分布.采用辅以损伤引起退化的应变不变量标度律来表征临界电流的不可逆退化.研究发现,绞扭对股线弹塑性损伤行为和应变导致的临界电流退化起着重要作用.随着绞扭节距的增大,复合股线的刚度增大,应变极限(超过该极限时芯丝开始损伤)急剧减小.累积残余应变和芯丝的损伤共同导致超导股线临界电流的不可逆退化.实验观察到的“断崖式不可逆退化”是由于Nb_(3)Sn芯丝的损伤造成的.从力学的角度,短绞节距是缓解应变引起超导股线临界电流不可逆退化的良好选择.

GROWTH OF Nb_3Sn TRANSFORMED FROM Nb_6 Sn_5

The diffusion process of Sn in the transformation of Nb_6Sn_5 to Nb_3Sn has been studied.The experimental results show that the growth of Nb_3Sn laver is controlled by two processes,i.e. the short range diffusion of Sn which is responsihle for the inner layer with large grains,and the long,range diffusion of Sn which results in the outer layer with fine grains.It was found thai grain size depends on the reaction temperature.A model of Nb_3Sn growth based on the above processes was established and its solution was found to be in good agreement with ex- perimental results.

Development and Performance of the First Nb_(3)Sn Thin-Film Cavity via Bronze Process

Low-temperature synthesis of Nb_(3)Sn thin-film cavity is of great significance in the field of superconducting radio frequency(SRF).The bronze process can grow only stable Nb_(3)Sn phase at 700℃,so it is considered to be the most promising process for low-temperature synthesis of Nb3Sn thin-film cavity.We successfully fabricated the worldwide first Nb_(3)Sn thin-film cavity by bronze process.We technically solved the key problems of precursor preparation,characterized and analyzed the uniformity of the Nb_(3)Sn film,and tested the performance of the cutout samples and the whole cavity of the Nb_(3)Sn film.It is obtained that the Q0value of the cavity at 4.2 K is about 1.2×10^(9),which is greater than the performance of the bulk-niobium cavity under the same conditions.This result means that the preparation of Nb_(3)Sn by bronze process has the great potential to more practical copper-based Nb_(3)Sn thin-film cavity,which is expected to achieve a substantial improvement in the performance of SRF cavity and comprehensive engineering applications.

INFLUENCE OF GEOMETRICAL CONFIGURATION OFSUPERCONDUCTING MATERIAL ON GROWTH OF Nb_3 Sn

Boundary conditions constructed by two typical geometrical configurations related to the manufacturing methods of bronze process and tin-rich Nb tube method have been considered in a diffusion model in which the diffusion of Sn in CuSn matrix plays a major role is as- sumed.The dependence of thickness of Nb_3Sn layer on reaction time has been derived.It is shown that the growth rate of Nb_3Sn relates to the configuration of the superconductor,the geometrical parameters of Nb filaments and CuSn matrix.The theory is qualitatively con- sistent with the experimental results.

第四代ECR(电子回旋共振)离子源高场Nb_(3)Sn磁体1/2长度样机的研制

中国科学院近代物理研究所正在研发第四代ECR(电子回旋共振)离子源FECR(first 4th generation ECR ion source).以20 kW/45 GHz微波加热运行为目标,需要研制Nb_(3)Sn超导磁体以实现对所加热等离子体的有效磁场约束.作为首台采用Nb_(3)Sn超导磁体技术的ECR离子源,FECR的主磁场线圈由4套独立的轴向螺线管线圈与1套径向六极线圈所构成,且均采用单股Nb_(3)Sn线绕制而成,这给线圈的加工、冷体装配、磁体的失超保护等环节带来一系列挑战.为使磁体能在高场、高应力作用下安全稳定运行,项目采用基于铝壳体结构与bladder&key的预紧应力控制技术,完成了一套半尺寸冷体样机的研发.该样机已完成4.2 K低温测试.本项研究的核心关键问题与挑战是如何在复杂的高精度机械装配与高电流强磁场励磁过程中实现对易碎Nb_(3)Sn导线的有效保护.本篇文章中,我们将阐述如何设计、研制、装配及测试工作于复杂磁场与应力环境的高性能Nb_(3)Sn六极磁铁.针对于单个六极线圈的测试,我们设计研发了一种称为“Mirror”结构的测试工装.论文中会详细论述基于壳层结构与bladder&key的装配预紧技术在半尺寸样机上的应用效果.同时,论文对在半尺寸样机上观察到的强烈磁通跳跃现象和它对失超探测保护的严峻挑战问题及相关解决或规避方案进行相关论述.

Metallographic investigationof first full-sizehigh-Jc Nb_(3)Sn cable-in-conduit conductor aftercyclicloadingtests

In order to verify the feasibility of applying high-Jc Nb_(3)Sn strand in fusion magnet,a full-size cable-in-conduit conductor(CICC)with short twist pitch(STP)cable pattern was manufactured and tested in SULTAN facility at SPC,Switzerland.Three levels of cyclic electromagnetic(EM)load were applied on the sample stepwise,no visible decrease of current sharing temperature(TcsT was observed until the EM load increased to 80 kA×10.8 T,after that the Tcs decreased dramatically with the EM cycles,which suggested that irreversible deformation,causing a change in the strain state,or even damage has occurred in the superconducting strands.For investigating the reason which caused the conductor performance degradation,the tested conductor was dissected for metallographic observation.Eight segments which subjected to different EM loads were extracted from one of the legs,the geometric feature changes of the cable cross-sections were analyzed and compared.A good correlation was found between the decrease of the Tcs and deformation of the cable cross section.A mass of cracks were found on the sub-elements of strands in the segment which subjected to highest EM load,but the amount of crack is much lower in other segments.Combining the analyses,it is speculated that the critical EM load which causes irreversible degradation is between 850 kN/m and 870 kN/m for this conductor.The results could be a reference in high-Jc Nb_(3)Sn CICC design.

电阻焊接技术制备Nb_(3)Sn-NbTi混合超导接头

在强磁场超导磁体应用中,特别是具有高稳定度高场超导磁体,具有极低电阻的超导接头发挥着重要作用。通过电阻焊接方法制备了Nb_(3)Sn和NbTi的异种材料超导接头。首先通过烧结法制备了Nb_(3)Sn的超导接头,然后通过电阻焊接将Nb_(3)Sn超导接头与NbTi超导体焊接成型。分析了Nb_(3)Sn超导接头制备过程中Nb_(3)Sn的微观组织结构和相变。利用无损检测CT对接头结构进行三维重构,分析了Nb_(3)Sn和NbTi超导接头内部的缺陷和2种不同材料间的微观连接状态。最后,在背景磁场下对超导接头的电阻性能进行了测试和研究。结果表明,与传统超导焊料制备的超导接头相比,电阻焊接制备的超导接头显示出良好的耐磁场性能,在1.5 T背景磁场下具有较低的电阻值。

Nb_(3)Sn超导复合股线非线性力学行为研究

本文通过对Nb_(3)Sn超导复合股线在77 K和300 K下进行准静态加卸载拉伸和疲劳实验,研究了Nb_(3)Sn超导复合股线的非线性力学行为,结果表明:Nb_(3)Sn超导复合股线的准静态应力-应变曲线和能量耗散具有很强的非线性.同时,考虑塑性应变产生的损伤退化,推导了卸载过程中非线性和线性卸载模量,提出了考虑损伤的双曲面弹塑性本构模型来预测准静态加卸载应力-应变响应和能量耗散;通过疲劳损伤演化模型分析和预测Nb_(3)Sn超导复合股线在77 K和300 K下疲劳过程中的能量耗散.理论与实验结果对比表明:准静态加卸载拉伸实验中损伤退化是能量损耗产生非线性的主要原因.此外,对Nb_(3)Sn超导复合股线的疲劳断裂模式进行了分析,结果表明:Nb 3Sn芯丝组在77 K时表现为脆性断裂,在300 K时表现为韧性断裂.这些新发现为研究Nb_(3)Sn超导复合股线的非线性力学行为提供了新的视角.