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1.
钒合金(V-5Cr-5Ti)是聚变堆第一壁以及包层的重要候选结构材料。不同加工工艺会对钒合金在聚变堆中的服役性能产生影响。本文利用兰州重离子研究装置(HIRFL)提供的337 MeV的高能Fe离子对不同程度冷轧(冷变形量分别为40%、60%和80%)以及冷轧后退火(1 273 K退火1 h)的V-5Cr-5Ti合金样品进行了辐照,研究了不同的冷轧和退火处理过程对材料抗辐照硬化性能的影响。电子背散射衍射技术(EBSD)测试结果显示,随着冷变形量的增加,样品中细小破碎晶粒比例增大,晶粒平均尺寸减小。退火处理后,细小破碎晶粒出现一定程度的长大,大晶粒几乎全部消失,晶粒尺寸分布更加均匀。维氏硬度结果表明随着冷变形量的增加,硬度随之增加,退火后硬度降低。辐照之后,材料硬度升高,出现了辐照硬化效应。在冷轧样品和退火样品中都观察到了辐照硬化效应随冷变形量的增加显著减弱的现象,这表明冷变形可以显著提高材料的抗辐照硬化能力。结合EBSD和硬度数据,对冷变形和退火处理引起钒合金抗辐照硬化性能变化的机理进行了讨论。讨论结果显示,冷轧使材料总的吸收尾闾增大,引起辐照硬化程度降低,退火处理使材料中晶界密度和位错密度降低,材料的总吸收尾闾降低,辐照硬化效应增加。 相似文献
2.
在Al(铝)-Si(硅)合金中同时添加Sr(锶)和B(硼)存在“中毒”现象,无法同时细化α-Al晶粒和变质共晶Si.本文研究了在同时添加α-Al晶粒细化剂B和共晶Si变质剂Sr的条件下,微量稀土La(镧)对Al-7%Si-0.6%Fe合金组织、热导率和力学性能的影响,分析了稀土La的影响规律及其作用机理.结果表明微量稀土La的添加,一方面可以中和Sr与B的毒化效应,提升共晶Si的变质效果;另一方面可以促使α-Al异质形核基底La B6的形成,并作为表面活性剂降低α-Al的形核过冷度,从而细化α-Al晶粒.共晶Si的变质以及α-Al晶粒的细化有助于同时提升Al-7%Si-0.6%Fe合金的热导率及力学性能.此外,当稀土La的添加量在0.02%—0.06%之间时,合金的导热性能明显提升;随着La添加量的进一步增大,合金热导率下降. 相似文献
3.
为了揭示强磁场对金属凝固组织的影响规律,本文研究了Al-14.98%Si(质量分数)和Al-9.2%Si(质量分数)合金在强磁场作用下凝固组织的变化趋势,分析了强磁场对合金凝固组织中Si分布的影响.研究发现,均恒磁场和梯度磁场分别通过洛伦兹力和磁化力的作用对合金的凝固组织产生影响,强磁场可以显著改变初晶硅在合金中的分布状况.在均恒磁场作用条件下初晶硅在合金中均匀分布;在梯度磁场条件下,由于磁化力和浮力的共同作用,初晶硅在试样的上部或下部聚集.同时,磁化力也改变了共晶体在合金中的组织形态,使试样上部和下部共晶体的层片间距明显不同.理论和实验分析表明,Al-Si合金在强磁场中凝固时,磁场能作用于凝固过程,使共晶体中的Al含量增大,共晶点向左偏移.
关键词:
强磁场
凝固过程
共晶组织
Al-Si合金 相似文献
4.
采用电磁悬浮和自由落体两种实验技术对二元Co-50%Mo过共晶合金中初生Co_7Mo_6金属间化合物的生长机理和维氏硬度进行了系统研究.电磁悬浮实验中,合金熔体获得的最大过冷度为203 K(0.12T_L),初生Co_7Mo_6枝晶生长速度与过冷度之间呈现幂函数关系.随着过冷度的增大,初生枝晶中Co元素含量单调递增,枝晶尺寸明显减小,并且其维氏硬度逐渐升高.在自由落体状态下,随着液滴直径的减小,合金熔体的过冷度和冷却速率均增大.当液滴直径减小到392μm以下时,初生Co_7Mo_6枝晶从小平面向非小平面形态进行转变.实验发现,深过冷条件下Co_7Mo_6化合物发生了显著的溶质截留效应,其维氏硬度与Co元素分布和形貌特征密切相关. 相似文献
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7.
研究了直流磁场、交流磁场对液态铝和固态铁界面微观组织的影响,采用金相显微镜、电子探针和x射线衍射等方法对其扩散层内生成物进行了分析.结果表明,在直流磁场和交流磁场作用下,固态铁界面内形成的扩散层厚度均比无磁场时小;在交流磁场作用下,液态铝和固态铁的界面变得凹凸不平;在垂直于磁场方向上,直流磁场抑制了铝原子和铁原子之间的扩散,交流磁场则促进了扩散;无磁场时固态铁内扩散层中生成的金属间化合物由FeAl3和Fe2Al5组成,直流磁场条件下只有Fe2Al5生成,交流磁场作用下由Fe2Al5和Fe4Al13组成.
关键词:
磁场
铝
铁
金属间化合物
扩散 相似文献
8.
研究了Gd含量对(Fe73B22Nb5)100-xGdx(x=0,0.5,1.0,1.5,2.0)合金非晶形成能力、热稳定性和磁学性能的影响规律,并对比分析了非晶氧化机制.通过添加Gd元素,合金的原子尺寸差超过13%,构型熵增大了30%,提升了合金的非晶形成能力.随着Gd含量的增大,过冷液相区范围达到73 K,热稳定性得到明显增强.Gd元素导致合金局部各向异性受到限制,准位错偶极子型缺陷密度降低.这有效减少了阻碍磁畴壁旋转的钉扎位点,提高合金软磁性能.此外,Gd元素使得非晶在氧化过程中对温度的变化更为敏感,达到最大氧化速率的温度降低了15 K,但是并未恶化其抗氧化性能.Gd原子受结合能影响向表层迁移,形成的富Gd氧化物填充了表层缺陷,占据了大量顶部空间,合金表面附近的结构更加致密.这种结构减少了氧原子通过微观组织界面进行扩散的通道,有助于增强抗氧化性能. 相似文献
9.
以Mn-56.5 wt%Sb包晶合金为研究对象, 进行了不同磁场、不同冷速条件下的凝固实验. 通过对液相线温度、包晶温度的考察, 发现强磁场可以提高Mn-56.5 wt%Sb合金的液相线温度, 且该上升值随磁感应强度的增加而增加, 当所施加的磁感应强度为11.5 T时, 液相线温度升高大约3 ℃, 但施加磁场后包晶反应温度没有明显改变. 对该合金的凝固组织进行定量金相分析发现, 施加磁场后MnSb相明显减少, 该结果与磁场对相变温度的影响相一致. 另外通过X射线衍射分析发现, 强磁场诱发包晶反应生成相MnSb的c轴垂直于磁场方向取向, 而Mn2Sb相的(311)面平行于磁场方向取向. 对不同冷速凝固的Mn-56.5 wt%Sb合金组织进行定量金相分析结果显示, 强磁场对合金凝固过程的作用效果受到冷却速度的影响. 随着冷却速度的增加, 强磁场对该合金凝固组织中MnSb相的相对含量变化影响效果减弱.
关键词:
强磁场
包晶合金
凝固
相变温度 相似文献
10.
表面张力效应对空间和地面合金凝固行为的影响 总被引:1,自引:0,他引:1
为揭示空间微重力条件下合金的凝固特性,分别于1990年及1996年两次利用我国返回式科学试验卫星,研究了Al-Al3Ni,Al-RE等共晶和Al-Bi偏晶合金的空间凝固行为.文章结合流体物理理论和两次卫星搭载的实验结果,着重讨论了合金中的表面张力梯度驱动对流和熔滴的Marangoni迁移现象及其在偏晶合金地面生产中的应用. 相似文献
11.
Effects of Cu on the martensitic transformation and magnetic properties of Mn_(50)Ni_(40)In_(10) alloy 下载免费PDF全文
The structures, the martensitic transformations, and the magnetic properties are studied systematically in Mn50Ni40-xCuxIn10, Mn50-xCuxNi40In10, and Mn50Ni40In10-xCux alloys. The partial substitution of Ni by Cu reduces the martensitic transformation temperature, but has little influence on the Curie temperature of austenite. Comparatively, the martensitic transformation temperature increases and the Curie temperature of austenite decreases with the partial replacement of Mn or In by Cu. The magnetization difference between the austenite phase and the martensite phase reaches 70 emu/g in Mn50Ni39Cu1In10; a field-induced martensite-to-austenite transition is observed in this alloy. 相似文献
12.
Z. H. Ismail 《辐射效应与固体损伤》2013,168(4):105-110
Abstract An AlMgSi alloy prepared in two different conditions of age-hardening was neutron irradiated to fast fluences up to 2.5 × 1018n cm?2 at 50°C. Postirradiation tensile and hardness tests were performed in the range from room temperature up to 350°C. The results show that the alloy in its soft and hard conditions exhibits a pronounced degree of irradiation-induced softening. The degree of softening is found to be dependent upon the ageing treatment given to the alloy before irradiation. The observed softening is suggested to be brought about by irradiation-induced dissolution of the age-hardening precipitates present before irradiation. 相似文献
13.
Effects of hydrogen on microstructure characteristics and precipitation behavior have been investigated in Ti600 alloy hydrogenated at 750°C. Due to the precipitation of δ hydride and α″ martensite, X-ray diffraction (XRD) peaks of α phase shifted to lower angles and became broadened. XRD data showed that the addition of hydrogen expanded crystal lattice of α phase and lattice volume increased linearly in the range of 0?C H?0.792?wt%. XRD, scanning electron microscopy, and transmission electron microscopy analysis revealed precipitation behavior of secondary α lamellar, α″ martensite and δ hydride. Compared to as-received one, microstructure of hydrogenated Ti600 alloy changed obviously. Equiaxed α phase decreased and even vanished with hydrogen contents increasing. Parallel fine lamellar structure appeared and the colonies were constructed by different orientation. Micro-hardness of hydrogenated Ti600 alloy increased with the increase of hydrogen concentration, and it was considered that interstitial solution strengthening, precipitation of δ hydride, and generation of defects were the major factors. 相似文献
14.
采用新颖的熔体旋甩结合放电等离子烧结技术制备了单相InSb化合物,研究了熔体旋甩工艺对其微结构以及热电性能的影响. 结果表明,熔体旋甩得到的薄带自由面主要由300 nm—2 μm的小柱状晶组成,薄带接触面为非晶或精细纳米晶,薄带经烧结后得到了具有大量层状精细纳米结构的致密块体,尺寸约为40 nm. 与熔融+放电等离子体烧结制备样品相比,在测试温度范围内(300—700 K),试样的电导率略有下降,但Seebeck系数显著增加,热导率和晶格热导率显著降低,室温下晶格热导率降低幅度约为106%,700 K下晶格热导率的降低幅度达1664%,熔融+熔体旋甩+放电等离子体烧结制备的InSb化合物试样在700 K时其最大ZT值达到049,与熔融+放电等离子体烧结试样相比提高了29%. 相似文献
15.
采用新颖的熔体旋甩结合放电等离子烧结技术制备了单相InSb化合物,研究了熔体旋甩工艺对其微结构以及热电性能的影响. 结果表明,熔体旋甩得到的薄带自由面主要由300 nm—2 μm的小柱状晶组成,薄带接触面为非晶或精细纳米晶,薄带经烧结后得到了具有大量层状精细纳米结构的致密块体,尺寸约为40 nm. 与熔融+放电等离子体烧结制备样品相比,在测试温度范围内(300—700 K),试样的电导率略有下降,但Seebeck系数显著增加,热导率和晶格热导率显著降低,室温下晶格热导率降低幅度约为106%,700 K下晶格热导率的降低幅度达1664%,熔融+熔体旋甩+放电等离子体烧结制备的InSb化合物试样在700 K时其最大ZT值达到049,与熔融+放电等离子体烧结试样相比提高了29%.
关键词:
熔体旋甩
n型InSb化合物
微结构
热电性能 相似文献
16.
《Current Applied Physics》2018,18(5):512-518
High-entropy alloy (AlCrNbSiTiV)N nitride films are prepared using direct current (dc) reactive magnetron sputtering, with an equiatomic AlCrNbSiTiV alloy target. Experiments using the grey-Taguchi method are conducted to determine the effect of deposition parameters (dc power, substrate temperature, N2/(N2+Ar) flow rate and substrate bias) on the microstructure, mechanical and tribological properties. Orthogonal array (L9 34), signal-to-noise ratio and analysis of variance are used to analyze the effect of the deposition parameters. The coated films are examined using scanning electron microscopy, an atomic force microscope, transmission electron microscopy (TEM), a tribometer and a nanoindenter. The TEM patterns confirm that the (AlCrNbSiTiV)N nitride films have a simple face-center-cubic structure. The experimental results show that a (AlCrNbSiTiV)N film coating significantly improves the mechanical properties. In the confirmation runs, using grey relational analysis, the improvement in friction coefficient is 32.5%, in corrosion current is 28.6%, in hardness H is 29.4%, in elastic modulus E is −18.3%, in H/E is 57.1 and in H3/E2 is 225.0%. The samples with (AlCrNbSiTiV)N film coating are classified as HF1 and exhibit good adhesive strength. 相似文献
17.
Effect of the potential function and strain rate on mechanical behavior of the single crystal Ni-based alloys: A molecular dynamics study 下载免费PDF全文
Molecular dynamics has been widely used to study the fundamental mechanism of Ni-based superalloys. However, the effect of the potential function and strain rate on mechanical behavior has rarely been mentioned in the previous molecular dynamics studies. In the present work, we show that the potential function of molecular dynamics can dramatically influence the simulation results of single crystal Ni-based superalloys. The microstructure and mechanical behavior of single crystal Ni-based superalloys under four commonly used potential functions are systematically compared. A most suitable potential function for the mechanical deformation is critically selected, and based on it, the role of strain rate on the mechanical deformation is investigated. 相似文献
18.
The influence of the microstructure on the corrosion behaviour of a shape memory Cu-11.40Al-0.55Be (wt.%) polycrystalline alloy in 3.5% NaCl has been studied by microscopical examinations, spectroscopical and X-ray diffraction measurements, and electrochemical tests. Chloride environment can produce a dealuminization attack, and the corrosion behaviour is affected by the alloy microstructural conditions. After long times of immersion, the single β phase microstructure suffers localized corrosion in some regions but dealuminization is generalized on the whole surface. However, in the (β + γ2) microstructure, preferential dissolution of γ2 dendritic precipitates occurs, which seems to protect β matrix from dealloying. 相似文献
19.
Effects of pulsed bias duty ratio on microstructure and mechanical properties of TiN/TiAlN multilayer coatings 总被引:2,自引:0,他引:2
Yongqiang WeiChunzhi Gong 《Applied Surface Science》2011,257(17):7881-7886
TiN/TiAlN multilayer coatings were deposited on M2 high speed steel by a pulsed bias arc ion plating system. The effect of pulsed bias duty ratio on the microstructure, mechanical and wear properties was investigated. The amount of macroparticles reduced with the increase of the duty ratio. The surface roughness was 0.0858 μm at duty ratio of 50%. TiN/TiAlN multilayer coatings were crystallized with orientations in the (1 1 1), (2 0 0) (2 2 2) and (3 1 1) crystallographic planes and the microstructure strengthened at (1 1 1) preferred orientation. At duty ratio of 20%, the hardness of TiN/TiAlN multilayer coatings reached a maximum of 3004 HV, which was 3.2 times that of the substrate. The adhesion strength reached a maximum of 77 N at 50% duty ratio. Friction and wear analyses were carried out by pin-on-disc tester at room temperature. Compared with the substrate, all the specimens coated with TiN/TiAlN multilayer coatings exhibited better tribological properties. 相似文献
20.
The Zr2Al, Zr3Al2 and Zr6NiAl2 intermetallic compounds were characterized by means of time differential perturbed angular correlation (TDPAC) and X-ray
diffraction. Our interest in these Zr(Hf) aluminides comes from crystallization studies of Zr(Hf)-based bulk metallic glasses
which have a wide supercooled liquid region. 相似文献