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Abstract
An improved method for the synthesis of four heterotrinuclearpolyacids of the type: Hx[EM′yM″zO40⋅nH2O (E=P, Si; M′=Mo, W; M″=V, W) was elaborated. The studied compounds were characterized by elemental analysis, IR spectra and thermal behaviour over 20–800C temperature range.
SA is scarcely used [ 9 ]. The above investigations partially or singularly focused on one aspect of biodiesel and to date, there is no systematic study on thermal behaviors of biodiesel using thermal analysis techniques, especially the moisture
Abstract
The thermal behavior of synthetic schoenite (K2SO4·MgSO4·6H2)) during heating has been studied by thermal methods. The temperatures of dehydration and decomposition of schoenite have also been determined by DTA, TG and DSC. The thermal reaction equations and the X-ray power diffraction results of the products have been given and the corresponding kinetic parameters have also been obtained.
kinetic study. The TG/DTG curves with mass samples of 5 mg were not shown because they possess the same features of thermal behavior. Fig. 4 TG/DTG curves of jerivá oil with sample mass 20 mg mass in nitrogen
Abstract
Thermal behavior of α-(Cu–Al–Ag) alloys, i.e. alloys with composition less than about 8.5 mass% Al, was studied using differential scanning calorimetry (DSC), differential thermal analysis (DTA), scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDX) and X-ray diffractometry (XRD). The results indicated that the presence of silver introduces new thermal events ascribed to the formation of a silver-rich phase and, after addition higher amounts than 8 mass% Ag to the Cu–8 mass% Al alloy it is possible to observe the formation of the γ1 phase (Al4Cu9), which is only observed in alloys containing minimum of 9 mass% Al. These results may be attributed to some Ag characteristics and its interaction with Cu and Al.
temperature phases [ 18 – 25 ]. Thermal behaviour of vermiculite samples ground by vibratory mill has been characterized using thermal methods [ 26 ]. The comparison of the results obtained by different methods contributed to better understanding of the
medicine and quality monitoring, was reported rarely. Though several literatures have reported the thermal behavior of enoxacin [ 4 – 6 ] and its metal complexes [ 7 ], due to adopting only thermal analysis technique and the single heating rate method, it
Abstract
This work discusses thermal behavior of Ni/MH battery with experimental methods. The present work not only provides a new way to get more exactly parameters and thermal model, but also concentrates on thermal behavior in discharging period. With heat generation rate gained by experiments with microcalorimeter, heat transport equations are set up and solved. The solutions are compared with experiment results and used to understand the reactions inside the battery. Experiments with microcalorimeter provide more reliable data to create precise thermal model.
Abstract
The thermal behaviors of four organic solvents with/without LiPF6 were measured by C80 microcalorimeter at a 0.2�C min−1 heating rate. With the addition of 1 M LiPF6, the ethylene carbonate (EC) and propylene carbonate (PC) show the exothermic peaks at elevated temperature, which lessen their stabilities. The exothermic peak temperatures of EC and PC based LiPF6 solutions are at 212 and 223�C, respectively, in argon filled vessel. However, two endothermic peak temperatures were detected in diethyl carbonate (DEC) based LiPF6 solution at 182 and 252.5�C, respectively, in argon filled vessel. Dimethyl carbonate (DMC) based LiPF6 solution shows two endothermic peak temperatures at 68.5 and 187�C in argon filled vessel at elevated temperature. Consequently, it is concluded that LiPF6 play a key role in the thermal behavior of its organic solution.
thermo-infrared spectroscopy analysis. Based on these analyses, the kaolinite–DMSO intercalation complex of a low defect (well crystallized) kaolinite from Zhangjiakou in China was prepared. The thermal behavior of the complex heated in different
