排序方式: 共有22条查询结果,搜索用时 15 毫秒
1.
2.
3.
The sheath structures of strongly electronegative plasmas axe investigated on basis of the accurate Bohm criterion obtained by Sagdeev potential. It is found that the presheath transition between the bulk plasma and the sheath almost does not exist there, and that distributions of electrons, negative and positive ions in the sheath form a pure positive ion sheath near the boundary of the electrode. Furthermore, the density distribution of space net charge has a peak near the sheath edge, the spatial potential within the sheath falls faster, and the sheath thickness becomes thinner. 相似文献
4.
Atmospheric gas-liquid discharge with argon as a working gas is presented by employed nanosecond pulse power. The discharge is presented in a glow-like mode. The discharge powers are determined to be less than 1 W, and remains almost constant when the discharge duration time increases. Bountiful active species are determined by capturing optical emission spectra,and their main generation processes are also discussed. The plasma gas temperature is calculated as 350 K by comparing the experimental spectra and the simulated ones of N_2(C~3Ⅱ_g→B~3Ⅱ_g, Δv =-2). The time resolved vibrational and rotational temperature is researched to present the stability of discharge when pulse voltage and discharge duration vary.The electron density is determined to be 10~(16) cm~(-3) according to the Stark broadening effect of the H_α line. 相似文献
5.
对铝(Al)和二氨基马来腈(C_4H_4N_4)的混合物分别进行等离子体辅助球磨和普通球磨,研究等离子体辅助球磨活化对合成AlN的作用机制。结果表明:相对于普通球磨,等离子体辅助球磨更有利于Al粉的晶粒细化和晶格畸变,并有利于形成Al-C_4H_4N_4纳米级的复合结构。辅助球磨中的等离子体促进C_4H_4N_4的脱胺,使C_4H_4N_4分解出更多的游离含N基团,加速与活化的Al合成AlN,辅助球磨14 h后AlN的转化率达到91%,远高于普通球磨合成AlN的产率83%。等离子体辅助球磨8 h的Al+C_4H_4N_4前驱体发生氮化反应的激活能为353.46 kJ/mol,在Ar中于800℃保温1 h可以通过固-固反应机制全部转化为超细AlN,而普通球磨8 h的前驱体反应激活能高达441.21 kJ/mol,Al需熔化后才能进行氮化反应,导致部分C_4H_4N_4先行受热分解蒸发,AlN产率仅为86%。辅助球磨促进AlN合成的主要原因是等离子体放电的高频脉冲轰击和瞬态"电火花"对粉体产生协同球磨作用。 相似文献
6.
7.
8.
9.
针对出口孟加拉国BS90A钢轨的断面特点及技术要求,优化设计了孔型参数、轧辊及导卫装置,探索出了一套合理可行的生产工艺。 相似文献
10.
In this study, the emission spectra of active atoms O (3p^5p → 3s^5S^02 777.4 nm),Ha (3P→2S 656.3 nm) and N (3p^4P→ 3s^4S^0 742.3 nm, 744.2 nm, 746.8 nm) produced by thepositive high-voltage pulsed corona discharge (HVPCD) of N2 and H2O mixture in a needle-plate reactor have successfully been recorded against a severe electromagnetic interference coming from the HVPCD at one atmosphere. The effects of the peak voltage, the repetition rate of pulsed discharge and the flow rate of oxygen on the production of those active atoms are investigated. It is found that when the peak voltage and the repetition rate of the pulsed discharge are increased,the emission intensities of those active atoms rise correspondingly. And the emission intensities of O (3p^5P→3s^5S^0 777.4 nm), Hα (3P→2S 656.3 nm) and N (3p^4P→3s^4S^0 742.3 nm, 744.2 nm,746.8 nm) increase with the flow rate of oxygen (from 0 to 25 ml/min) and achieve a maximum value at a flow rate of 25 ml/min. When the flow rate of oxygen is increased further, the emission intensities of those atoms visibly decrease correspondingly. The main physicochemical processes of interaction involved between electrons, neutrals and ions are also discussed. 相似文献