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Investigation of the process of polystyrene materials processing intensive electromagnetic field of microwave

Keywords:

A.R. Nasybullin – Ph.D. (Eng.), Department TMS, Kazan National Research Technical University named after A.N. Tupolev. E-mail: aydar.nasybullin@mail.ru
O.G. Morozov – Dr.Sc. (Eng.), Department TMS, Kazan National Research Technical University named after A.N. Tupolev. E-mail: microoil@mail.ru
M.P. Danilaev – Dr.Sc. (Eng.), Department REQD, Kazan National Research Technical University named after A.N. Tupolev. E-mail: danilaev@mail.ru
E.A. Bogoslov – Ph.D. (Eng.) Interdisciplinary Interuniversity Laboratory KNITU-KAI and KFU, Kazan National Research Technical University named after A.N. Tupolev. E-mail: danilaev@mail.ru
R.E. Samoshin – Department TMS, Kazan National Research Technical University named after A.N. Tupolev. E-mail: laxer91@bk.ru


The article examines the implementation of the thermal degradation of polystyrene materials representing domestic or industrial waste, using as a source of thermal energy of the electromagnetic field of microwave and activated carbon as a distributed inverter heat. Increasing amount of plastic waste require solutions to their disposal or recycling. Thermal degradation of polystyrene allows to obtain initial monomer and low molecular weight products, which can later be used for re-synthesis of the polymer or for new materials. The authors conducted a theoretical study of the properties of the polymer and the heating process termotransforming material in the microwave electromagnetic field using numerical methods for mathematical modeling. The article presents the results of an experimental study of thermal degradation of polystyrene materials using active carbon and high intensity microwave field.
References:

  1. Bogoslov Ye.A., Voronina Ye.V., Danilaev M.P., Kossko I.A., Morozov O.G., Nasybullin A.R., Pashin D.M. Formirovanie uglerodnykh dendritov v bar'ernom gazovom razryade atmosfernogo davleniya // Tekhnicheskie nauki - ot teorii k praktike. 2014. № 32. S. 140-147.
  2. Brittany L. Hayes - Microwave Synthesis: Chemistry at the Speed of Light. CEM Publishing. 2002.
  3. Nasybullin A.R. Razrabotka i issledovanie SVCh-ustroystv dlya tekhnologiy pererabotki polietilentereftalata: Avtoreferat diss. … kand. tekhn. nauk. Kazan'. 2012.
  4. Morozov G.A., Morozov O.G., Nasybullin A.R., Samigullin R.R., Shakirov A.S. Funktsional'no adaptivnye SVCh-tekhnologii v zadachakh pererabotki termoplastichnykh polimernykh materialov // Vestnik MarGTU. 2011. № 3(13). S. 13-25.
  5. Morozov G.A., Morozov O.G., Nasybullin A.R., Samigullin R.R. Mikrovolnovaya obrabotka termoreaktivnykh i termoplastichnykh polimerov // Fizika volnovykh protsessov i radiotekhnicheskie sistemy. 2011. T. 14 № 3. S. 114-121.

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