Crystals (Sep 2022)

Comparison of Structural, Microstructural, Elastic, and Microplastic Properties of the AAAC (A50) and ACSR (AC50/8) Cables after Various Operation Periods in Power Transmission Lines

  • Aleksandr A. Levin,
  • Maria V. Narykova,
  • Alexey I. Lihachev,
  • Boris K. Kardashev,
  • Andrej G. Kadomtsev,
  • Nikita D. Prasolov,
  • Andrei G. Panfilov,
  • Roman V. Sokolov,
  • Pavel N. Brunkov,
  • Makhsud M. Sultanov,
  • Alexander V. Strizhichenko,
  • Ilia A. Boldyrev

DOI
https://doi.org/10.3390/cryst12091267
Journal volume & issue
Vol. 12, no. 9
p. 1267

Abstract

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In modern economic infrastructure, Al cables of overhead power transmission lines are used both without and with a steel core (respectively, all aluminum alloy conductor (AAAC) and aluminum conductor steel reinforced (ACSR) cables). In this article, the changes in structural, microstructural, and elastic-microplastic properties have been analyzed for the outer wires of the AAAC (A50) and ACSR cables (AC50/8 cables with a steel core of ~8 mm2 cross-section, hereinafter referred to as AC50) with the cross-section of the stranded conductor of ~50 mm2, which were in operation for 0–20 years in the Volgograd region of Russia. Using the techniques of X-ray diffraction, electron backscattered diffraction, densitometry, and the acoustic method, the structural and microstructural features of the wires have been compared and found to be correlated with their elastic-microplastic properties. It has been ascertained that the presence of a steel core in AC50 leads to a decrease in the defectiveness of the near-surface layer of their aluminum wires. Compared with A50 cables, the development of void defects in the near-surface layer of Al-wires of AC50 cables slows down (by ~1 year with a service life of ~10 years and by ~3 years with a service life of ~20 years).

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