Influence of the STA boundary conditions on thermal decomposition of thermoplastic polymers

The analysis of polymer chemical decomposition is often highly dependent on the test conditions. In fact, thermal analysis tends to be far more sensitive to instrumental parameters than other branches of chemical analysis. Some of the boundary conditions in thermal analysis have been widely studied...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry 2019-11, Vol.138 (4), p.2457-2468
Main Authors: Lázaro, David, Lázaro, Mariano, Alonso, Alain, Lázaro, Pedro, Alvear, Daniel
Format: Article
Language:English
Subjects:
Addition polymerization
Analysis
Analytical Chemistry
Boundary conditions
Chemical analysis
Chemical reactions
Chemistry
Chemistry and Materials Science
Crucibles
Decomposition
Decomposition (Chemistry)
Decomposition reactions
Deviation
Flow velocity
Gas flow
Heating rate
Inorganic Chemistry
Mass comparison
Measurement Science and Instrumentation
Organic chemistry
Parameter sensitivity
Physical Chemistry
Polymer industry
Polymer Sciences
Polymers
Thermal analysis
Thermal decomposition
Thermoplastics
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Summary:The analysis of polymer chemical decomposition is often highly dependent on the test conditions. In fact, thermal analysis tends to be far more sensitive to instrumental parameters than other branches of chemical analysis. Some of the boundary conditions in thermal analysis have been widely studied in the literature, such as the heating rate or the atmosphere. However, the influence of the sample mass, the gas flow or the use of lid has not been studied enough for thermoplastic polymers. The aim of this paper is to analyse how the experimental boundary conditions of the simultaneous thermal analysis apparatus affect the thermal decomposition of thermoplastic polymers. To do so, a set of 35 experimental tests have been performed including variation of the sample mass, gas flow rate, heating rate, atmosphere and the use of lid in the crucible. Results enable us to analyse the influence in the mass loss and in the energy release or absorbed in the thermal decomposition of thermoplastic polymers, showing the impact of each boundary condition over the thermal decomposition. A comprehensive analysis of the thermal decomposition behaviour of the PVC and LLDPE by considering the influence of all the boundary conditions of the STA is covered. It is especially remarkable the influence of gas flow in the oxidative reactions, and of heating rate in the chemical reactions that thermoplastic polymers undergo in their decomposition. Additionally, sample mass comparison shows only deviation in the oxidative reactions and does not show deviation for the non-oxidative reactions. That seems to show a higher effect on the results because of the energy release in the decomposition reactions than because of the thermal lag due to heat transfer on the sample, as it is usually thought.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-019-08787-4