钨锆铪合金活性破片对间隔靶耦合毁伤特性 | 您所在的位置:网站首页 › 段雪峰 军械学院 › 钨锆铪合金活性破片对间隔靶耦合毁伤特性 |
1. ВЛИЯНИЕ d-МЕТАЛЛОВ НА ТЕМПЕРАТУРУ ПОЛИМОРФНОГО И (МОНО) ЭВТЕКТОИДНОГО ПРЕВРАЩЕНИЯ В БИНАРНЫХ СПЛАВАХ ТИТАНА, ЦИРКОНИЯ И ГАФНИЯ
[J] .
Физика металлов и металловедение
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2020,第5期
机译:二元合金,锆和铪的二元合金和(单氧化物)共析转化的D-金属的影响 2. Zirconium and Hafnium Complexes with Cycloheptane- or Cyclononane-Fused [OSSO]-Type Bis(phenolato) Ligands: Synthesis, Structure, and Highly Active 1-Hexene Polymerization and Ring-Size Effects of Fused Cycloalkanes on the Activity [J] . Ishii Aldhiko, Ikuma Keita, Nakata Norio, Organometallics . 2017,第20期机译:锆和铪配合物用环庚烷 - 或环壬烷 - 熔融[Osso] - 型双(苯酚)配体:合成,结构和高活性的1-己烯聚合和熔融环烷烃对活性的戒指效应 3. Origins and evolution of rhyolitic magmas in the central Snake River Plain: insights from coupled high-precision geochronology, oxygen isotope, and hafnium isotope analyses of zircon [J] . Colon Dylan P., Bindeman Ilya N., Wotzlaw Jorn-Frederik, Contributions to Mineralogy and Petrology . 2018,第2期机译:中央蛇河平原菱形岩浆的起源和演变:锆耦合高精度地质谐波,氧气同位素和氧化铪同位素分析的见解 4. Suppression of chemical phase separation in high-k zirconium an hafnium nitro-silicate and alumino-silicate alloys for CMOS applications [C] . Lucovsky G., Phillips J.C., Whitten J.L. European Solid-State Device Research Conference . 2005机译:抑制高k锆铪硝基硅酸铪和铝硅酸盐合金的化学相分离,用于CMOS应用 5. Microstructural characterization of mechanically alloyed tungsten-hafnium carbide and tungsten-based alloys for kinetic energy penetrator applications [D] . Kennedy, Christine. 1997机译:机械合金化钨铪 - 碳化钨和钨基合金的微观结构表征 6. Thermochromic and Femtosecond-Laser-Induced Damage Performance of Tungsten-Doped Vanadium Dioxide Films Prepared Using an Alloy Target [O] . Mao-Dong Zhu, Chong Shan, Cheng Li, 2018机译:用合金靶制备钨掺杂二氧化钒薄膜的热致变色和飞秒激光诱导的损伤性能 7. The Determination of 0.01 to 1.0% of Titanium,Zirconium, Hafnium, Niobium, Tantalum, Molybdenum, and Tungsten in Uranium Alloys by Atomic Absorption Spectrophotometry [R] . R. D. Gardner, A. L. Henicksman, W. H. Ashley 1970机译:原子吸收分光光度法测定铀合金中0.01~1.0%的钛,锆,铪,铌,钽,钼,钨 |
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