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and II) and one exothermic (step III). The characteristic parameters of these steps are given in Table 1 . Table 1 Characteristic parameters of the decomposition steps

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exothermal and consist in the pyrolitic thermo-oxidation and decomposition of the material. The values of characteristic parameters of these processes depend on the conditions in which the thermal analysis were performed; e.g., for experiments performed at

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logarithmic stage according to their genetic potential and media culture conditions. Characteristic parameters for each bacterial strain can be obtained during this period from culture behaviour. If n 0 is the number of cells at time 0 and n t is

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Characteristic parameters of the degradation in inert and oxidizing atmosphere obtained for DGEBA/ADM(MA)–MDEA(DA) systems

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material system is subjected to heat energy, its interaction with matter can be measured in terms of the following thermal characteristic parameters like: • Thermal conductivity

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The characteristic parameters of crystallization m and n were also determined by the method of Matusita et al. [ 15 – 17 ], based on the analysis of the overall temperature interval in which the process of material crystallization takes place

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connected to remove the moisture formed during the reaction. The experimental conditions of TPR were in agreement with the criterion proposed by Malet and Caballero [ 12 ]. The characteristic parameter P defined as P = β S 0 /( FC 0 ) ≪ 20 K, (where β

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. Table 1 Characteristic parameters for HPLC silica gels filled with cetane: mean pore diameter, trademark, coefficient of pore filling, confined-cetane fraction, bulk-cetane fraction, non-transformed cetane fraction (as deduced from

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microstructural features and the characteristic parameters of the cooling curve of 319 aluminum alloy. Experimental procedures The aluminum alloy used in the experiments was the 319 alloy. The composition of the alloy is shown in Table

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oxygen (OOT). The oxidation onset temperature is determined as the intersection point of two tangents. The effectiveness of the additives oils was investigated in DSC method conditions. Characteristic parameters were extracted from the DSC curve

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