Electroslag Technology

  • B. I. Medovar
  • G. A. Boyko

Part of the MRE/Materials Research and Engineering book series (MATERIALS)

Table of contents

  1. Front Matter
    Pages i-xxi
  2. Electroslag Technology in the Soviet Union

    1. Front Matter
      Pages 1-1
    2. B. E. Paton, B. I. Medovar, G. S. Marinski, V. L. Shevtsov, U. V. Orlovski
      Pages 3-9
    3. V. V. Panasyuk, K. B. Katsov, V. I. Kovalenko, V. P. Rudenko, A. B. Kuslitski
      Pages 10-17
    4. V. S. Levitin, V. S. Kropachev, E. G. Zaharov
      Pages 25-28
    5. Yu. M. Kamenski, B. M. Romanov, O. N. Drushinina, N. N. Perevalov, R. V. Kakabidze
      Pages 29-31
    6. V. I. Mahnenko, E. D. Gladkii, Yu. A. Skosnyagin, V. I. Zayats
      Pages 32-39
    7. N. F. Yakovlev, Yu. M. Skrynchenko, S. I. Tishaev, L. D. Moshkevich, A. N. Prohorov, Yu. M. Politaev
      Pages 40-45
    8. M. D. Tkachuk, V. I. Tashlykov, A. P. Stetsenko, O. G. Seleverstov, G. A. Boyko, M. F. Zevakin et al.
      Pages 46-50
    9. G. A. Boyko, V. A. Miroshnichenko, B. K. Zykov, S. M. Duplii
      Pages 51-55
    10. N. A. Ponamarev, K. K. Zhdanovich, N. P. Trebov, E. A. Upshinski, M. K. Zakamarkin, M. A. Loiferman et al.
      Pages 56-61
    11. Yu. V. Latash, V. A. Yakovenko, I. Yu. Lyuty, E. V. Butski, S. V. Bogdanov, V. P. Kubikov
      Pages 62-67
    12. M. M. Klyuev, V. P. Kubikov, A. A. Pokrovski, V. P. Stepanov, K. Ya. Fedotkin
      Pages 75-78
    13. A. B. Pokrovski, G. A. Hasin, V. I. Lazarev, L. A. Hrustalkov, V. A. Pozdnyakov, B. M. Kukartsev
      Pages 79-82
    14. V. L. Matetski, V. A. Nikolaev, V. P. Poluhin, V. V. Chernyh, A. D. Chepurnoi, V. Ya. Saenko et al.
      Pages 86-89
    15. E. A. Matsegora, A. T. Chepelev, G. N. Svistunov, A. S. Gavrishko, V. Z. Kamalov, A. I. Borovko et al.
      Pages 90-92
    16. L. Z. Tsygurov, A. G. Galkov, E. M. Ofitsersov, V. N. Kuznetsov, Yu. M. Mironov, V. G. Kovalev et al.
      Pages 93-97
    17. V. A. Antonov, A. G. Miroshnichenko, L. S. Tkachuk, E. V. Odegov, A. V. Zherebetski, V. B. Linetski et al.
      Pages 98-101
    18. L. A. Volohonski, M. A. Kisselman, A. A. Nikulin, E. G. Protokovets
      Pages 110-114
    19. S. B. Yakoboshvili, I. Yu. Mogilner, D. M. Haradze, G. Sh. Kobalava, G. G. Bikoev, E. N. Hundadze
      Pages 115-118
    20. V. V. Chernyh, I. K. Marchenko, I. E. Blohin, G. A. Molodan, V. I. Oleinichenko, P. P. Rudometkin et al.
      Pages 119-124
    21. Yu. V. Latash, A. E. Voronin, F. K. Biktagirov, R. G. Krutikov, V. B. Tynyankin, Ya. M. Vasilyev
      Pages 125-129
    22. B. E. Paton, B. I. Medovar, B. I. Shukstulski, V. Ya. Saenko, A. D. Chepurnoi, V. V. Lapin et al.
      Pages 130-131
    23. B. E. Paton, B. I. Medovar, V. Ya. Saenko, V. K. Postizhenko, V. I. Us, L. B. Medovar et al.
      Pages 132-137
    24. V. Ya. Saenko, V. I. Us, L. B. Medovar, M. S. Vysotski, M. I. Gorbatsevich, V. I. Moiseenko et al.
      Pages 138-139
  3. Electroslag Technology Abroad

    1. Front Matter
      Pages 153-153
    2. R. Schlatter, A. Bennani
      Pages 170-179
    3. D. Dzue, L. Haihon, S. Shuie, D. Dzyanhe, L. Chuanlin
      Pages 184-189
    4. L. M. Stupak
      Pages 254-257
  4. Back Matter
    Pages 259-270

About this book


Dr. Boris Medovar, a member of the Soviet Academy of Sciences, is a promi­ nent member of the E.O. Paton Electric Welding Institute in Kiev, one of the pre-eminent institutes of the USSR. The Paton Institute, internationally famous for its entrepreneurial efforts in electrical welding processes, is also famous for its application of electrically based processes in melting and remelting of high­ alloy and high-temperature materials. These include the ESR (electroslag re­ melting) process, the ESC (electroslag casting) process, skull remelting based on electron-beam processes, plasma arc processes, and electric arc processes. Along with the ESR process for ingot production is the commercial plasma arc remelt process for specialty steels, particularly where high nitrogen contents may be desired, as in austenitic stainless steels. Major industrial centers are now scattered throughout the USSR and are a major factor in high-alloy, high­ strength, low- and high-temperature materials. The ESR process was developed in response to the Western development of the VAR (vacuum arc remelting) process for producing very highly alloyed materials during the growth period of the jet engine age. The V AR and ESR processes utilize different purification and refinement processes that are extremely critical in very highly, complexly alloyed superalloys and high-speed tool steels. In water-cooled remelt systems, they also achieve relatively rapid (directional) solidification, minimizing segregation and coarse phase separation of undesir­ able impurity elements or elements that tend to form coarse brittle phases.


computer design efficiency iron manganese metals

Editors and affiliations

  • B. I. Medovar
    • 1
  • G. A. Boyko
    • 1
  1. 1.E.O. Paton Electric Welding InstituteKievUkraine USSR

Bibliographic information

Industry Sectors
Energy, Utilities & Environment