Journal of Siberian Federal University. Engineering & Technologies: Influence of Carbon Black Content on the Properties of Butadiene Elastomer

Journal of Siberian Federal University. Engineering & Technologies / Influence of Carbon Black Content on the Properties of Butadiene Elastomer

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Issue: Journal of Siberian Federal University. Engineering & Technologies. 2023 16 (8)
Authors: Makarov, Igor S.; Dyakonov, Afanasii A.; Spiridonov, Aleksandr M.; Struchkova, Tatyana S.; Okhlopkova, Aytalina A.; Petrova, Nataliya N.; Lazareva, Nadezhda N.; Tuisov, Aleksey G.; Kyckin, Anatoliy K.
Contact information: Makarov, Igor S.: North-Eastern Federal University Yakutsk, Russian Federation; ; Dyakonov, Afanasii A.: North-Eastern Federal University Yakutsk, Russian Federation; Institute of Physical and Technical Problems of the North SB RAS Yakutsk, Russian Federation; Spiridonov, Aleksandr M.: North-Eastern Federal University Yakutsk, Russian Federation; Struchkova, Tatyana S.: North-Eastern Federal University Yakutsk, Russian Federation; Okhlopkova, Aytalina A.: North-Eastern Federal University Yakutsk, Russian Federation; Petrova, Nataliya N.: North-Eastern Federal University Yakutsk, Russian Federation; Lazareva, Nadezhda N.: North-Eastern Federal University Yakutsk, Russian Federation; Tuisov, Aleksey G.: Institute of Physical and Technical Problems of the North SB RAS Yakutsk, Russian Federation; Kyckin, Anatoliy K.: Institute of Physical and Technical Problems of the North SB RAS Yakutsk, Russian Federation
Keywords: carbon black; physical and mechanical properties; aggressiveness; glass transition temperature
Abstract: The paper presents the results of a study of physical and mechanical properties before and after thermal aging, aggressiveness, as well as the temperature properties of elastomers based on butadiene rubber grade SKD-V, depending on the content of low-activity furnace carbon grade P‑803. With an increase in the content of carbon black up to 110 wt.h. in the elastomeric matrix, an increase in relative elongation and conditional tensile strength occurs, with a further increase in the content, a decrease is observed. The results obtained after thermal aging of samples and their soaking in AMG‑10 hydraulic oil are considered. With an increase in the content of carbon black in the rubber compound, the indicators of density, hardness, conditional stress and aggressiveness increase. After the thermal aging test, an increase in density, hardness and nominal stress is observed, and the elongation and tensile strength decrease. Changing the amount of carbon black in the rubber mixture does not affect the beginning of the segmental mobility of the elastomer, but there is a decrease in the linear-temperature expansion of the samples. Using differential scanning calorimetry, it was found that a change in the amount of carbon black does not affect the glass transition temperature. Using electron microscopy, it was shown that at the optimum content of carbon black, the most uniform distribution of particles occurs in the volume of the elastomeric matrix without the formation of a large number of agglomerates or voids
Pages: 977–985
EDN: INBBYP
Paper at repository of SibFU: https://elib.sfu-kras.ru/handle/2311/152328

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