This study was conducted to verify the reliability of volatile organic compounds (VOCs) data derived from Selected Ion Flow Tube-Mass Spectrometers (SIFT-MS) measurements. In the previous study, the measurement reliability was validated using simultaneous measurements by SIFT-MS and gas chromatography-mass spectrometry (GS-MS), but in order to ensure more accuracy, and additional analysis was conducted by diluting standard gases (2 ppm) consisting of 10 types of VOCs mainly measured in industrial complexes (concentrations ranged from 0 to 500 ppb). As a result of 2 experiments, the SIFT-MS showed linearity and produced a coefficient of determination of over 0.99 for all cases. SIFT-MS has secured high measurement reliability, and it is considered to be able to efficiently manage VOCs emitted in industrial complexes.
Zircon, having excellent thermal, chemical, and mechanical properties, is utilized in refractory materials, electronic materials, chemical machines, structural materials, etc. However, zircon generally shows thermal dissociation to zirconia(ZrO2) and silica(SiO2) around the sintering temperature of 1540 oC, and when zircon particles are small and impurities are present, thermal dissociation is known to occur at around 1100 oC. This reduces the mechanical properties of ZrSiO4. In this research, the effect of adding SiO2 and 3Y-TZP to ZrSiO4 has been studied in order to suppress dissociation and improve the mechanical properties. Addition of SiO2 suppressed the dissociation of ZrSiO4 at lower temperatures. It also enabled optimum packing between the particles, resulting in a dense microstructure and good mechanical properties. When 3Y-TZP was added, recombination with the dissociated SiO2 resulted in good mechanical properties by suppressing the generation of pores and the densification of the microstructure.