1)Nb_3SnNb3Sn
1.Nb_3Sn,the typical low temperature superconductor,have been magnets for high energy physics(HEP),international tokomak experimental reactor(ITER)and nuclear magnetic resonance(NMR).Nb3Sn是典型的低温超导材料,主要应用于高能物理(HEP)和热核聚变(ITER)以及高场核磁共振(NMR)等磁体领域。
2.STUDY ON THE PERFORMANCE TEST OF SUPERCONDUCTING STRAND Nb_3Sn;随着超导磁体的不断开发应用,对高临界电流密度超导材料的需求不断增长,以金属间化合物为基体的超导材料Nb3Sn具有特殊的实际意义,其制成的导体临界性能高于NbTi导体,Nb3Sn股线也是ITER磁体的关键组成部分。
2)Nb3Sn superconducting wireNb3Sn超导线
1.The phase formation kinetics of internal-Sn Nb3Sn superconducting wires is in agreement with Yn=K(T)t relation and the A15 growth exponent n is affected by HT temperature and Zr alloying.所得结果表明四种因素促进了A15相的增长:增加反应温度,延长反应时间,增大Sn/Cu比率和合金化掺杂Zr;内锡法Nb3Sn超导线材的成相动力学服从Yn=K(T)t变化关系,A15相生长指数n值受热处理温度和Zr掺杂的影响。
3)niobium[英][na?'??bi?m][美][na?'ob??m]Nb
1.The effect of niobium on high temperature creep performance of nickel based alloy was investigated.研究了Nb对Ni基合金高温蠕变性能的影响,认为Nb主要是通过增强第二组γ′相沉淀强化,γ相固溶强化,晶界M23C6 呈链状分布,而使Ni基合金抗蠕变性能提高。
2.TMCP(Thermo-Mechanical Controlled Process) tests were carried out,and the microstructure and stretch-flange-formability of low carbon FB steels microalloyed with niobium were analyzed.通过TMCP试验,研究了不同Nb含量低碳FB钢的微观组织和扩孔性能。
3.The influences of microalloy element niobium (Nb) on the stacking fault energy and mechanical properties of Fe-22Mn-0.研究了微合金元素Nb对Fe-22Mn-0。
英文短句/例句
1.Strain-Induced Precipitation in Nb and Nb-Ti Microalloyed Steel;Nb钢及Nb-Ti钢的应变诱导析出行为
2.Effect of Niobium on Properties of ZG35Cr25Ni12Nb对ZG35Cr25Ni12性能的影响
3.Structure of High-spin States in Near-spherical Nuclei ~(90)Nb and ~(91)Nb;近球形核~(90)Nb和~(91)Nb高自旋态能级结构研究
4.Influence of Al,Nb on the High Temperature Oxidation Resistance of High Nb Containing TiAl AlloysAl和Nb元素对高Nb-TiAl合金高温氧化行为的影响
5.Formability and Texture of SUS 430 Ferritic Stainless Steel Microalloyed with Nb and Nb+BNb及Nb、B微合金化430铁素体不锈钢织构及成形性能
6.Influence of Nb Content and Microstructure on the Electrochemical Behavior of Ti-Nb AlloysNb含量及相组成对Ti-Nb二元合金腐蚀性能的影响
7.Study on Effects of Cold Rolling-Process on Microstructure and Properties of Nb+Ti- Interstitial Free Steel;Nb+Ti-IF钢薄板冷轧工艺及组织性能研究
8.A Study on Surface Bioactivity of NiTi and Ti-Nb-Sn Alloys;NiTi及Ti-Nb-Sn合金表面生物活性化研究
9.The Study of Surface Modification by Ti/Nb Ion Implantation into Mould Steels;Ti、Nb离子注入工模具钢表面改性研究
10.Internal Friction Behaviors in ZrAlNiCu(Nb) BMG;ZrAlNiCu(Nb)大块非晶的内耗行为
11.Study of Welded Joint Layer of Nb-1Zr Alloy and Stainless Steel;Nb-1Zr合金与不锈钢焊接结合层的研究
12.Corrosion Behavior and Bioactivity of Ti-Nb Binary Alloys;Ti-Nb合金的腐蚀性能及生物活性研究
13.Synthesis and Properties of SnO_2 and the Compounds in Sn-Fe-Nb-O System;SnO_2及Sn-Fe-Nb-O体系的合成与性质研究
14.Study on Elastic Energy Dispersion Spectrum of Fe-Nb AlloyFe-Nb合金弹性能量耗散谱研究
15.Effect of Nb on Microstructure of CFB/M Multiphase SteelNb对CFB/M复相钢组织的影响
16.Investigation of Grain Refining by Transformation in Nb-microalloyed CFB/M SteelNb微合金化CFB/M钢相变细化研究
17.Analysing the Effect of Nb and Ti in Low Grade Pipeline Steel Produced in Benxi Steel浅析本钢X52管线钢Nb和Ti的作用
18.The Research of Electronic Structure of Nb-Doped BaTiO3Nb掺杂BaTiO3的电子结构研究
相关短句/例句
Nb3Sn superconducting wireNb3Sn超导线
1.The phase formation kinetics of internal-Sn Nb3Sn superconducting wires is in agreement with Yn=K(T)t relation and the A15 growth exponent n is affected by HT temperature and Zr alloying.所得结果表明四种因素促进了A15相的增长:增加反应温度,延长反应时间,增大Sn/Cu比率和合金化掺杂Zr;内锡法Nb3Sn超导线材的成相动力学服从Yn=K(T)t变化关系,A15相生长指数n值受热处理温度和Zr掺杂的影响。
3)niobium[英][na?'??bi?m][美][na?'ob??m]Nb
1.The effect of niobium on high temperature creep performance of nickel based alloy was investigated.研究了Nb对Ni基合金高温蠕变性能的影响,认为Nb主要是通过增强第二组γ′相沉淀强化,γ相固溶强化,晶界M23C6 呈链状分布,而使Ni基合金抗蠕变性能提高。
2.TMCP(Thermo-Mechanical Controlled Process) tests were carried out,and the microstructure and stretch-flange-formability of low carbon FB steels microalloyed with niobium were analyzed.通过TMCP试验,研究了不同Nb含量低碳FB钢的微观组织和扩孔性能。
3.The influences of microalloy element niobium (Nb) on the stacking fault energy and mechanical properties of Fe-22Mn-0.研究了微合金元素Nb对Fe-22Mn-0。
4)uranium-niobiumU-Nb
5)niobium alloying渗Nb
6)Beta-niobium(β-Nb)β-Nb
延伸阅读
(-)-2,3-O-Isopropylidene-sn-glycerol分子式:C6H12O3分子量:132.16CAS号:14347-78-5性质:密度1.062。沸点72-73°C (8 mmHg)。折射率1.433-1.435。闪点80°C。比旋光度-13.7° (neat)。水溶性miscible。
