Optimization of partial slip surface at lubricated-MEMS

M. Tauviqirrahman; R. Ismail; J. Jamari; D.J. Schipper

doi:10.1109/ICA.2011.6130190

Optimization of partial slip surface at lubricated-MEMS

M. Tauviqirrahman
, R. Ismail
, J. Jamari
, D.J. Schipper

Faculty of Engineering Technology

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

1 Citation (Scopus)

5 Downloads (Pure)

Abstract

This work reports the hydrodynamic performance (load support, friction force, friction coefficient, and volume flow) generated by a partial slip surface at lubricated-MEMS. The partial slip surface is optimized so that a maximum hydrodynamic load support could be obtained. The partial slip is applied on the stationary surface, the moving surface, and both of them. It is found that if the moving surface is designed as a partial slip surface, the system is in an unsteady state and no great importance exists in engineering applications. Controlling the partial slip surface of the stationary surface can give many advanced properties compared with the traditional no-slip contact, i.e., a large fluid load support in combination with low friction coefficient. It is also shown that partial slip surface gives the highest hydrodynamic pressure in a parallel slip gap, which is helpful to improve the operation stability of the system

Original language	English
Title of host publication	Proceeding of 2011 2nd International Conference on Instrumentation, Control and Automation
Editors	Dr. Suprijanto
Place of Publication	Bandung, Indonesia
Publisher	IEEE
Pages	375-379
ISBN (Print)	978-1-4577-1460-3
DOIs	https://doi.org/10.1109/ICA.2011.6130190
Publication status	Published - 15 Nov 2011
Event	2nd International Conference on Instrumentation, Control and Automation 2011 - Bandung, Indonesia Duration: 15 Nov 2011 → 17 Nov 2011

Conference

Conference	2nd International Conference on Instrumentation, Control and Automation 2011
Country/Territory	Indonesia
City	Bandung
Period	15/11/11 → 17/11/11

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10.1109/ICA.2011.6130190

Cite this

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title = "Optimization of partial slip surface at lubricated-MEMS",

abstract = "This work reports the hydrodynamic performance (load support, friction force, friction coefficient, and volume flow) generated by a partial slip surface at lubricated-MEMS. The partial slip surface is optimized so that a maximum hydrodynamic load support could be obtained. The partial slip is applied on the stationary surface, the moving surface, and both of them. It is found that if the moving surface is designed as a partial slip surface, the system is in an unsteady state and no great importance exists in engineering applications. Controlling the partial slip surface of the stationary surface can give many advanced properties compared with the traditional no-slip contact, i.e., a large fluid load support in combination with low friction coefficient. It is also shown that partial slip surface gives the highest hydrodynamic pressure in a parallel slip gap, which is helpful to improve the operation stability of the system",

author = "M. Tauviqirrahman and R. Ismail and J. Jamari and D.J. Schipper",

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booktitle = "Proceeding of 2011 2nd International Conference on Instrumentation, Control and Automation",

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note = "2nd International Conference on Instrumentation, Control and Automation 2011 ; Conference date: 15-11-2011 Through 17-11-2011",

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Tauviqirrahman, M, Ismail, R, Jamari, J & Schipper, DJ 2011, Optimization of partial slip surface at lubricated-MEMS. in D Suprijanto (ed.), Proceeding of 2011 2nd International Conference on Instrumentation, Control and Automation. IEEE, Bandung, Indonesia, pp. 375-379, 2nd International Conference on Instrumentation, Control and Automation 2011, Bandung, Indonesia, 15/11/11. https://doi.org/10.1109/ICA.2011.6130190

Optimization of partial slip surface at lubricated-MEMS. / Tauviqirrahman, M.; Ismail, R.; Jamari, J. et al.
Proceeding of 2011 2nd International Conference on Instrumentation, Control and Automation. ed. / Dr. Suprijanto. Bandung, Indonesia: IEEE, 2011. p. 375-379.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Optimization of partial slip surface at lubricated-MEMS

AU - Tauviqirrahman, M.

AU - Ismail, R.

AU - Jamari, J.

AU - Schipper, D.J.

PY - 2011/11/15

Y1 - 2011/11/15

N2 - This work reports the hydrodynamic performance (load support, friction force, friction coefficient, and volume flow) generated by a partial slip surface at lubricated-MEMS. The partial slip surface is optimized so that a maximum hydrodynamic load support could be obtained. The partial slip is applied on the stationary surface, the moving surface, and both of them. It is found that if the moving surface is designed as a partial slip surface, the system is in an unsteady state and no great importance exists in engineering applications. Controlling the partial slip surface of the stationary surface can give many advanced properties compared with the traditional no-slip contact, i.e., a large fluid load support in combination with low friction coefficient. It is also shown that partial slip surface gives the highest hydrodynamic pressure in a parallel slip gap, which is helpful to improve the operation stability of the system

AB - This work reports the hydrodynamic performance (load support, friction force, friction coefficient, and volume flow) generated by a partial slip surface at lubricated-MEMS. The partial slip surface is optimized so that a maximum hydrodynamic load support could be obtained. The partial slip is applied on the stationary surface, the moving surface, and both of them. It is found that if the moving surface is designed as a partial slip surface, the system is in an unsteady state and no great importance exists in engineering applications. Controlling the partial slip surface of the stationary surface can give many advanced properties compared with the traditional no-slip contact, i.e., a large fluid load support in combination with low friction coefficient. It is also shown that partial slip surface gives the highest hydrodynamic pressure in a parallel slip gap, which is helpful to improve the operation stability of the system

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DO - 10.1109/ICA.2011.6130190

M3 - Conference contribution

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BT - Proceeding of 2011 2nd International Conference on Instrumentation, Control and Automation

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PB - IEEE

CY - Bandung, Indonesia

T2 - 2nd International Conference on Instrumentation, Control and Automation 2011

Y2 - 15 November 2011 through 17 November 2011

ER -

Optimization of partial slip surface at lubricated-MEMS

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