2) combustion synthesis
燃烧法合成
1.
Nanocrystalline CeO2∶Er phosphors with an average crystalline size of 18, 38, 70 nm were prepared by glycinenitrate solution combustion synthesis.
采用燃烧法合成了CeO2∶Er纳米荧光粉,研究了不同粒径大小的CeO2∶Er的晶型和晶貌。
3) combustion synthesis
燃烧合成法
1.
Study of the Preparation of Alkali Earth Metals Halide by Combustion Synthesis;
燃烧合成法制备碱土金属卤化物的研究
2.
In this paper,different grain size of nanocrystalline Y_2O_3(Y_2O_3:Eu~(3+)) had been prepared by glycine-nitrate solution combustion synthesis and the homogeneous precipitation technique.
本文采用燃烧合成法和均相沉淀法制备了不同粒径的纳米晶Y2O3(Y2O3:Eu3+),着重研究了燃烧合成法中各种因素(甘氨酸的用量、前驱体中的含水量、炉温等)对纳米晶Y2O3晶粒尺寸的影响。
3.
This paper reported the preparation (of BaFBr)∶Eu~(2+) by combustion synthesis of urea-nitrate system,and the samples properties was studied with XRD and spectrophotometer.
BaFBr∶Eu2+的传统制备方法是高温固相法,文章介绍了应用燃烧合成法,采用尿素硝酸盐系燃烧合成获得BaFBr∶Eu2+,分别利用XRD和分光光度计对产物的各种性质进行测量研究。
4) combustion method
燃烧合成法
1.
Super fine powders of calcium-doped lanthanum chromites were synthesized by the Pechini method and the combustion method respectively.
分别通过Pechini法和燃烧合成法制备了掺Ca铬酸镧超细粉体,并采用高压成形、无压烧结工艺实现了低温致密化烧结。
2.
3)Co_(1-y)FeyO_(3-δ) powders were synthesized by a low temperature combustion method.
采用低温燃烧合成法制备了用作中低温固体氧化物燃料电池的阴极材料La_(0。
5) flame synthesis
燃烧合成法
1.
In this paper, the flame synthesis of carbon nanotubes based on laminar diffusion flames, counter-flow flames and premix flames are introduced.
本文主要介绍碳纳米管的燃烧合成法, 包括层流扩散火焰法、逆流火焰法和预混火焰法,并对影响碳纳米管合成的因素以及燃烧合成法中碳纳米管的生长机理做了做了简要分析。
6) self-propagating high-temperature synthesis
自蔓延燃烧合成
1.
Al-Ti-C master alloys used as grain refiners of the aluminum and its alloys have been prepared by self-propagating high-temperature synthesis.
利用自蔓延燃烧合成技术制备用于铝及铝合金晶粒细化的Al-Ti-C中间合金时,在自蔓延(SHS)和热爆(TE)两种不同的燃烧模式下都能反应生成Al-Ti-C,通过XRD衍射分析发现两种引燃模式得到的Al-Ti-C均满足实现铝晶粒细化的前提条件,即含有Al3Ti和TiC相。
2.
Al-Ti-C master alloys used as grain refiners of the aluminum and its alloys have been prepared by Self-propagating high-temperature synthesis (SHS) using Al, Ti and graphite.
本文中采用自蔓延燃烧合成法(SHS)以Al、Ti和石墨为原料制备出用于铝及铝合金晶粒细化的Al-Ti-C中间合金细化剂。
补充资料:氧瓶燃烧法
分子式:
CAS号:
性质:用于分析测定有机化合物中卤素、硫、磷等元素含量的方法。将有机化合物通过在充满氧气的燃烧瓶中进行燃烧,用稀碱溶液吸收燃烧产物,再采用适宜的分析方法来检查或测定卤素、硫、磷等元素的含量。此法多用于测定有机药物中卤素、硫、磷等元素的含量。
CAS号:
性质:用于分析测定有机化合物中卤素、硫、磷等元素含量的方法。将有机化合物通过在充满氧气的燃烧瓶中进行燃烧,用稀碱溶液吸收燃烧产物,再采用适宜的分析方法来检查或测定卤素、硫、磷等元素的含量。此法多用于测定有机药物中卤素、硫、磷等元素的含量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条