Detail publikace

Study on Stability of Magnetorheological Fluids Stabilized by Surface Active Agents

LAŠTŮVKOVÁ, M. SMILEK, J. MACHÁČEK, O. ROUPEC, J.

Originální název

Study on Stability of Magnetorheological Fluids Stabilized by Surface Active Agents

Anglický název

Study on Stability of Magnetorheological Fluids Stabilized by Surface Active Agents

Jazyk

en

Originální abstrakt

One of the disadvantages of more extensive utilization of magnetorheological fluids in broad applications is their kinetic instability over the time. Non-stabilized MR fluids showed strong destabilization in both centrifugal and gravitationa. Fluids (oil-based) and surface actives agents (non-ionic tensides) with nanosized dimension have been used as stabilizers. The kinetic stability of MR fluids has been studied by analytical centrifugation. Iron particles chemically treated by non-ionic tenside (10 wt. %) showed higher stibilty over the time in comparison with non-treated iron particles.

Anglický abstrakt

One of the disadvantages of more extensive utilization of magnetorheological fluids in broad applications is their kinetic instability over the time. Non-stabilized MR fluids showed strong destabilization in both centrifugal and gravitationa. Fluids (oil-based) and surface actives agents (non-ionic tensides) with nanosized dimension have been used as stabilizers. The kinetic stability of MR fluids has been studied by analytical centrifugation. Iron particles chemically treated by non-ionic tenside (10 wt. %) showed higher stibilty over the time in comparison with non-treated iron particles.

Dokumenty

BibTex


@misc{BUT150599,
  author="Jiří {Smilek} and Marcela {Smilková} and Ondřej {Macháček} and Jakub {Roupec}",
  title="Study on Stability of Magnetorheological Fluids Stabilized by Surface Active Agents",
  annote="One of the disadvantages of more extensive utilization of magnetorheological fluids in broad applications is their kinetic instability over the time. Non-stabilized MR fluids showed strong destabilization in both centrifugal  and gravitationa. Fluids (oil-based) and surface actives agents (non-ionic tensides) with nanosized dimension have been used as stabilizers. The kinetic stability of MR fluids has been studied by analytical centrifugation. Iron particles chemically treated by non-ionic tenside (10 wt. %) showed higher stibilty over the time in comparison with non-treated iron particles.",
  address="TANGER Ltd., Ostrava",
  booktitle="Proceedings 10th Anniversary International Conference on Nanomaterials - Research and Application October 17th - 19th 2018",
  chapter="150599",
  edition="1st Edition, 2018",
  howpublished="print",
  institution="TANGER Ltd., Ostrava",
  year="2018",
  month="october",
  pages="75--75",
  publisher="TANGER Ltd., Ostrava",
  type="abstract"
}