核殼層結構 的英文怎麼說

中文拼音 [céngjiēgòu]
核殼層結構 英文
nuclear shell structure
  • : 核構詞成分。
  • : i 量詞1 (用於重疊、積累的東西 如樓層、階層、地層) storey; tier; stratum 2 (用於可以分項分步的...
  • : 結動詞(長出果實或種子) bear (fruit); form (seed)
  • : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
  • 結構 : 1 (各組成部分的搭配形式) structure; composition; construction; formation; constitution; fabric;...
  1. Nuclear deformations confirm shell structure.

    原子形變證實
  2. " for their discoveries concerning nuclear shell structure

    發現原子
  3. The second strategy include that a metallic nickel ( ni ) core was encapsulated with a polymeric polystyrene ( pst ), and then coated with an outlayer of dielectric titania to form ni / pst / tio2 composite particles. the morphology and structure of the particles were characterized by tem, sem, tg - dta, xrd, and ft - ir

    其次,以聚苯乙烯包覆金屬鎳粉,形成了ni pst磁性聚合物微球,然後在該微球外包覆二氧化鈦,制得了粒徑均勻、形態良好的鎳聚苯乙烯二氧化鈦( ni pst tio _ 2 )無機-有機的多-復合微球。
  4. This text attempts to regard silica as shell materials, regard nanometer iron and carbonyl iron particle as core materials to prepare a kind of new - type absorbent. the structur of the core - shell particles were characterized by ftir, tem, sem, xps, xrd etc. the properties of magnetism, heat, crystalization, ectromagnetic were characterized by vsm, tg - dta, network vectorial analysis instrument

    本文以二氧化硅為材料,以納米鐵以及羰基鐵粒子為材料,制備一種新型的吸收劑粒子。用ftir , tem , sem , xps , xrd表徵了復合粒子的,利用vsm , tg - dta ,網路矢量分析儀等分析了材料改變對材料磁性能,熱性能,晶性能,電磁參數等性能進行了分析。
  5. Earth ' s layered structure - - a relatively thin crust of mobile plates, a solid mantle with gradual overturning movement, and the outer and inner core of molten and solid iron

    地球是分?相對運動變化的板塊薄的外,一塊具有逐漸加強的顛覆運動形式的固態硬,具有遠離中心的外和內部熔化的內和固態鐵。
  6. At the same time, the ever - growing population, the resources shortage, and the daunting environmental pollution have made high rises, skyscrapers a trend. more over, concrete structures have become widely demanded in severe environments such as off - - shore petrol platform, cross strait bridge, under sea tunnels, drainage pipes, nuclear waste containers, nuclear reaction shells, poisonous chemical containers etc. all of the above mentioned buildings and structures require the use of cement based materials

    與此同時,在人口增長和資源短缺、環境污染的威脅下,建築物越來越向著超高化、超大跨化方向發展,各種嚴酷環境下使用混凝土也越來越多,如:海上石油平臺、跨海大橋、海底隧道、污水管道、廢料容器、反應堆外、盛裝有害化學物的容器等,如此眾多的建築物和都主要採用了水泥混凝土材料。
  7. The results of confocal laser scanning microscopy ( clsm ) and atomic force microscopy ( afm ) proved that the microspheres or nanospheres with different surface characters were obtained successfully. the clsm investigation of fitc labeled particles showed that polymeric microspheres have a core - shell structure in which the surfactants existed in the shell of particles. polymeric microspheres with different surface characters were embedded onto the surface of pla membranes via surface entrapment

    激光共聚焦顯微鏡( clsm )和原子力顯微鏡( afm )觀察分析果證實可通過上述技術獲得具有不同表面性質的微米級或納米級聚合物微球,而熒光標記技術( fitc )則證實了聚合物微球具有明顯的,表面穩定劑存在於微球的
  8. It was the first time that the silica nanoparticles was coated with gd2o3 : eu rare - earth oxides, then the core - shell structure compound particles were obtained. the characterizations showed that the thickness of uniform coating is in 10 - 20nm ; the silica core is linked with the gd2o3 : eu shell by chemical bond si - o - gd ; because of the size effects and interface effects of nano - crystal coating, the diffraction and emission peaks become broadened. and at the same time, the transfer temperature of silica from amorphous to crystal is decreased

    首次在納米sio2表面包覆一gd2o3 : eu稀土復合氧化物,得到了-的復合顆粒,表徵果表明,均勻包覆的厚度為10 - 20nm ; sio2和gd2o3 : eu物質之間通過化學鍵si - o - gd鍵的作用合在一起;由於包覆納米晶的尺寸效應和界面效應使xrd衍射峰和熒光光譜發射峰出現了寬化現象。
  9. As a consequence, in order to prepare core - shell particles with well - defined composition, morphology and properties, furthermore to obtain ordered advanced nanocomposite materials, the future research in nanoengineering of particle surfaces should focus on both optimization of the existing approaches and the development of new methods, make full use of the specific chemical and / or electrostatic interaction between colloidal templates and shell substance or its precursors

    指出利用膠體粒子模板表面與物質或其前驅物間的特殊相互作用(包括靜電和化學相互作用) ,是完善現有制備方法和發展新方法來制備具有設定組成、和性能的復合粒子的關鍵,同時也是將來的粒子表面納米工程和獲取有序的、先進的納米復合材料的主要方向。
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