18th, Laser Aided Plasma Diagnostics

Spectroscopic investigations of plasma nitriding processes: A comparative study using steel and carbon as active screen materials

Sep 26, 2017, 12:15 PM

15m

ORAL Low-temperature plasmas Oral

Speaker

Prof. Juergen Roepcke (INP Greifswald)

Description

Low-pressure pulsed DC H2-N2 plasmas were investigated in the laboratory active screen plasma nitriding monitoring reactor, PLANIMOR, to compare the usage of two different active screen electrodes, (i) a steel screen with the additional usage of CH4 as carbon containing precursor in the feeding gas and (ii) a carbon screen without the usage of any additional gaseous carbon precursor. Applying quantum cascade laser absorption spectroscopy (QCLAS) the evolution of the concentration of four stable molecular species, NH3, HCN, CH4, and C2H2 has been monitored. The concentrations were found to be in a range of 10$^{12}$…10$^{16}$ molecules cm$^{-3}$. By analyzing the development of the molecular concentrations at variations of the screen plasma power, a similar behavior of the monitored reaction products has been found for both screen materials, with NH3 and HCN as the main reaction products. When using the carbon screen, the concentration of HCN and C2H2 was 30 and 70 times higher, respectively, comparing to the usage of the steel screen with an admixture of 1% CH4. Considering the concentration of the three detected hydrocarbon reaction products, a combustion rate of the carbon screen of up to 69 mg$\cdot$h$^{-1}$ has been found. The applied optical emission spectroscopy (OES) enabled the determination of the rotational temperature of the N2+ ion which has been in a range of 650…900 K increasing with the power in a similar way in the plasma of both screens. Also with power the ionic component of nitrogen molecules, represented by the N2+ (0-0) band of the first negative system, as well as the CN (0-0) band of the violet system increase strongly in relation to the intensity of the neutral nitrogen component, i.e. the N2 (0-0) band of the second positive system. In addition, steel samples have been treated with both the steel and the carbon screen resulting in a formation of a compound layer with up to 10 wt-% nitrogen and 10 wt-% carbon, respectively, depending on the screen material [1]. [1] S Hamann, I Burlacov, H-J Spies, H Biermann, and J Röpcke, J. Appl. Phys. 121 (2017) 153301