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Thermal decomposition of acrylamide from polyacrylamide

Time-resolved pyrolysis with ion-attachment mass spectrometry

Journal of Thermal Analysis and Calorimetry
Authors: Yuki Kitahara, Ko Okuyama, Keita Ozawa, Takuya Suga, Seiji Takahashi, and Toshihiro Fujii

Introduction The thermal decomposition of polyacrylamide (PAA) has received continued attention in the literature [ 1 – 5 ] for the following reasons: (i) PAA is used as an important thermoplastic material in many industries

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content and particle size on the thermal decomposition of NC were also individually studied [ 4 , 5 ]. The thermal decomposition can be investigated by many thermoanalytical methods such as thermogravimetry (TG), differential thermal analysis (DTA

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, respectively. The equations describing the stages of dehydration and thermal decomposition, onsets of recorded effects associated with these processes (for experiments in air and nitrogen atmosphere) as well as the values of observed and calculated mass losses

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thermal decomposition kinetics of magnesite enable us to better understand the decomposition mechanism, control steps, and the various factors on the process of thermal decomposition, thereby allowing us to optimize the thermal decomposition conditions for

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Journal of Thermal Analysis and Calorimetry
Authors: Hichem Eloussifi, Jordi Farjas, Pere Roura, Jaume Camps, Mohamed Dammak, Susagna Ricart, Teresa Puig, and Xavier Obradors

analyzing the thermal decomposition of Y-TFA is quite limited, and a complete understanding of the mechanism that controls their thermal decomposition under different processing conditions is still far from complete. For this purpose, the combined use of

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Introduction Thermal decomposition and dehydration of metal acetates have been studied broadly under various conditions [ 1 – 20 ]. As a typical and widely applied metal acetate, the thermal decomposition of copper(II) acetate

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strategies and the design of multifunctional biomaterials. The thermal decomposition of Ga(NO 3 ) 3 · x H 2 O has also been the subject of recent research using thermal analysis techniques, differential thermal analysis (DTG), and differential

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dissolves in water. To study the process of thermal decomposition and deduce the possible mechanism of thermal decomposition model and get the dynamic equation of thermal decomposition, the DTA-TG curves of glyphosate were investigated in temperature

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pre-exponential factor of thermal decomposition reaction and ZrP 2 O 7 crystallization can be obtained. 4 where β is the heating rate (K min −1 ), T max is the most rapidly decomposing temperature (that is, peak temperature on DTA curve, K), E

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–MS coupling technique to study the catalytic effect of NiO nanoparticles on the thermal decomposition of EGDN/NC propellant. It was shown that adding 2% of NiO nanoparticles to TEGDN/NC propellant can accelerate the thermal decomposition process after around

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