2) flame CVD
火焰CVD
1.
Simulation of Growth Process of Titania Nanoparticles Synthesized by Flame CVD Process;
火焰CVD法制备TiO_2纳米颗粒的数值模拟
2.
Cumulative and number frequency size distributions of TiO_2 nanoparticles synthesized in propane/air flame CVD process have been simulated by CFD code Fluent.
用计算流体力学和颗粒动力学的积分碰撞频率系数、CFD商业软件Fluent对工业丙烷/空气火焰CVD法制备纳米TiO_2颗粒材料的颗粒长大与合并过程、及颗粒的尺寸分布进行了模拟计算。
3.
Flame CVD process to materials synthesis is well established for manufacture of several commodities, and may have been greater potential for the future development of new materials with unique properties.
本文在前人工业丙烷/空气火焰CVD法制备TiO_2纳米颗粒实验工作的基础上,通过数值方法研究纳米TiO_2颗粒材料的尺寸特征,采用FLUENT 6。
3) flame
[英][fleɪm] [美][flem]
火焰法
1.
Deposit carbon coatings on high Co YG cemented carbide with combustion flame;
火焰法高钴YG系硬质合金表面沉积复合碳材料
4) flame method
火焰法
1.
In this paper, experiment of homogeneous epitaxial, growing of single crystal diamond film by flame method in atmosphere was conducted.
采用大气下火焰法进行了金刚石单晶膜的同质外延实验。
2.
The results show that flame method has advantages than other methods.
文章介绍了球形石英粉的制备方法,分析得出了火焰法工艺简单最易实现工业化生产的结论,对球形石英粉的性能参数进行了阐述,通过实验对比了国产球形石英粉和进口石英粉对环氧模塑料性能的影响。
5) combustion flame
火焰法
1.
A study on synthesis of diamond film by combustion flame method;
火焰法合成金刚石薄膜的研究
2.
Diamond thin films were synthesized on single crystalline silicon, TC4 titanium and WC Co alloy substrates by combustion flame.
用O2/C2H2燃烧火焰法在各种不同性质的衬底材料上直接合成金刚石薄膜,研究了硬质合金刀头在不同的冷却方式下,对合成金刚石膜的影响。
3.
In this paper, Combustion Flame was used to deposit compact composite carbon coatings onto cemented carbide surface for the first time.
本文率先采用火焰法在硬质合金表面上沉积多种连续、致密的复合碳涂层,对多种复合碳涂层进行了较全面的表征分析,并探讨了火焰结构合硬质合金基体表面状态对复合碳涂层表面形貌、相组成以及涂层的结合性能的影响。
6) combustion flame method
火焰法
1.
The authors study the properties mentioned above, analyse the microstructure and provide some theories about growth diamond films by combustion flame method in the paper.
对火焰法合成金刚石薄膜的晶体生长方式、结晶习性、孪晶、聚晶以及显微结构进行研究和分析,可为火焰法合成金刚石薄膜提供理论基础。
2.
In this paper, the composited carbon materials deposited on the cemented carbide surface by Combustion Flame method were studied.
本文重点对原始态、抛光态硬质合金表面火焰法沉积碳材料的复合结构进行表征,率先对火焰内焰中不同的高度位置所沉积的碳材料的形貌、相组成、晶粒尺寸等进行了系统探讨。
补充资料:火焰光度法(见原子发射光谱法)
火焰光度法(见原子发射光谱法)
火焰光度法见原子发射光讼法.
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