Processing by Centrifugation

  • Liya L. Regel
  • William R. Wilcox

Table of contents

  1. Front Matter
    Pages i-x
  2. Liya L. Regel, William R. Wilcox, Ramnath Derebail, Peter V. Skudarnov
    Pages 1-6
  3. Luuk A. M. van der Wielen, Marc A. T. Bisschops, Karel Ch. A. M. Luyben
    Pages 45-49
  4. Rajib Mukherjee, Deepanjan Deb, Pavitra Sandilya, D. P. Rao
    Pages 51-60
  5. Stanislav P. Nikanorov, Vladimir N. Gurin, Lev I. Derkachenko, Alexei P. Nechitailov, Igor N. Zimkin, Zoya I. Uspenskaya et al.
    Pages 71-76
  6. Vladimir N. Gurin, Stanislav P. Nikanorov, Alexei P. Nechitailov, Vladimir N. Osipov, Zoya I. Uspenskaya, Maria M. Korsukova et al.
    Pages 77-81
  7. Yuko Inatomi, Kengo Horiuchi, Kazuhiko Kuribayashi
    Pages 83-91
  8. Khasan Karimov, Khakim Akhmedov, Mohammad Mahroof-Tahir, Rizwan M. Gul, Abduakhad Ashurov
    Pages 93-98
  9. Khasan Karimov, Stefano Bellingeri, Yoshiyuki Abe
    Pages 99-106
  10. Motoi Nakazato, Tetsuya Suzuki, Yuji Nagasaka, Yoshiyuki Abe, Stefano Bellingeri, Giovanni Maizza
    Pages 107-112
  11. Konstantin G. Kostarev, Andrey V. Shmyrov
    Pages 121-125
  12. Vladimir A. Briskman, Konstantin G. Kostarev, Andrey V. Shmyrov
    Pages 127-132
  13. J. Simmons, L. L. Regel, W. R. Wilcox, R. Partch
    Pages 133-140
  14. Vladimir Privman, Jongsoon Park
    Pages 141-147
  15. Tsutomu Mashimo, Masao Ono, Takahiro Kinoshita, Hidekazu Kanegae
    Pages 155-158
  16. Masamichi Nishihara, Hirotaka Ihara, Takashi Sagawa, Rika Nishimura, Susumu Matsuzaki, Tsutomu Mashimo
    Pages 159-161
  17. Weiqiang Zhang, Yuansheng Yang, Zhuangqi Hu
    Pages 177-184
  18. V. I. Yukhvid, V. N. Sanin, A. G. Merzhanov
    Pages 185-200
  19. A. S. Rogachev, V. N. Sanin, A. E. Sytschev, V. I. Yukhvid, E. Medda, R. Orrù et al.
    Pages 201-212
  20. Jianjiang Wang, Zhongmin Zhao, Minghui Ye, Xinkang Du, Jinhua Wen
    Pages 223-229
  21. Sh. Mavlonov, H. Shodiev
    Pages 235-239
  22. L. L. Regel, R. V. Parfeniev, I. I. Farbshtein, I. L. Shulpina, S. V. Yakimov, V. P. Shalimov et al.
    Pages 241-252
  23. Peter V. Skudarnov, Liya L. Regel, William R. Wilcox, Goodarz Ahmadi
    Pages 273-286
  24. Minerva Vargas, E. Ramos, F. Z. Sierra, A. A. Avramenko
    Pages 287-294
  25. M. Z. Saghir, H. H. Vaziri, M. R. Islam
    Pages 303-316
  26. Back Matter
    Pages 371-372

About this book


This volume constitutes the proceedings of the Fourth International Workshop on Materials Processing at High Gravity, held at Clarkson University, May 29 to June 2, 2000. There were 73 attendees from 16 countries. Since the topics extended well beyond materials processing, it was felt appropriate to name this proceedings "Centrifugal Processing."
Processing by Centrifugation includes the traditional bench-scale centrifuges, as well as all rotating systems utilizing the centrifugal and Coriolis forces to provide unique performance. Centrifugation led to the formation of sticky porous Teflon membranes, as well as improved polymeric solar cells. Centrifugation on large equipment improved the chemical vapor deposition of diamond films, influenced the growth and dissolution of semiconductor crystals, and elucidated the influence of gravity on coagulation of colloidal Teflon. A million g centrifuge was constructed and used to study sedimentation in solids and to prepare compositionally graded materials and new phases. Rotation of a pipe about its axis allowed the casting of large-diameter metal alloy pipes as well as coating the interior of pipes with a cermet utilizing self-propagating high-temperature synthesis. Such coatings are highly corrosion and erosion resistant. Flow on a rotating disk was shown to be useful for process intensification, such as large-scale manufacturing of nano-particles, polymerization reactions, and heat & mass transfer.
Several theoretical studies dealt with the influence of rotation on fluid convection on surfaces and in pipes, tubes, and porous media. These have applications to integrated-circuit chip manufacturing, alloy casting, oil production, crystal growth, and the operation of rotating machinery.


RSI alloy crystal liquid modeling nanoparticle polymer

Editors and affiliations

  • Liya L. Regel
    • 1
  • William R. Wilcox
    • 1
  1. 1.Clarkson UniversityPotsdamUSA

Bibliographic information

  • DOI
  • Copyright Information Springer Science+Business Media New York 2001
  • Publisher Name Springer, Boston, MA
  • eBook Packages Springer Book Archive
  • Print ISBN 978-1-4613-5195-5
  • Online ISBN 978-1-4615-0687-4
  • Buy this book on publisher's site