Ejection of ferrofluid grains using nonlinear acoustic impulses— A particle dynamical study

We consider a model dilute ferrofluid with the grains suspended in water (e.g.,γ-Fe2O3) and subject the system to a strong, homogeneous magnetic field directed perpendicular to the surface such that there is chain formation along the field direction. We show that an appropriate impulse initiated at...

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Published in	Applied physics letters Vol. 75; no. 10; pp. 1479 - 1481
Main Authors	Sen, Surajit, Manciu, Marian, Manciu, Felicia S.
Format	Journal Article
Language	English
Published	United States 06.09.1999
Subjects	ACOUSTICS CHALCOGENIDES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COLLOIDS DISPERSIONS FERROMAGNETIC MATERIALS FLUIDS GRAIN SIZE INKS IRON COMPOUNDS IRON OXIDES MAGNETIC FIELDS MAGNETIC MATERIALS MATERIALS MICROSTRUCTURE OXIDES OXYGEN COMPOUNDS PULSES QUASI PARTICLES SIZE SOLITONS SURFACE PROPERTIES SURFACE TENSION TRANSITION ELEMENT COMPOUNDS 661300 > Other Aspects of Physical Science > (1992-)
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Abstract	We consider a model dilute ferrofluid with the grains suspended in water (e.g.,γ-Fe2O3) and subject the system to a strong, homogeneous magnetic field directed perpendicular to the surface such that there is chain formation along the field direction. We show that an appropriate impulse initiated at the base of the container might travel as a nondispersive soliton pulse with sufficient energy to overcome surface tension and eject the ferrofluid grain nearest to the liquid–air interface. The proposed mechanism, if successfully realized in the laboratory, could help design a nozzle-free, ink-jet printer of unparalleled resolution.
AbstractList	We consider a model dilute ferrofluid with the grains suspended in water (e.g.,[gamma]-Fe[sub 2]O[sub 3]) and subject the system to a strong, homogeneous magnetic field directed perpendicular to the surface such that there is chain formation along the field direction. We show that an appropriate impulse initiated at the base of the container might travel as a nondispersive soliton pulse with sufficient energy to overcome surface tension and eject the ferrofluid grain nearest to the liquid[endash]air interface. The proposed mechanism, if successfully realized in the laboratory, could help design a nozzle-free, ink-jet printer of unparalleled resolution. [copyright] [ital 1999 American Institute of Physics. ] We consider a model dilute ferrofluid with the grains suspended in water (e.g.,γ-Fe2O3) and subject the system to a strong, homogeneous magnetic field directed perpendicular to the surface such that there is chain formation along the field direction. We show that an appropriate impulse initiated at the base of the container might travel as a nondispersive soliton pulse with sufficient energy to overcome surface tension and eject the ferrofluid grain nearest to the liquid–air interface. The proposed mechanism, if successfully realized in the laboratory, could help design a nozzle-free, ink-jet printer of unparalleled resolution.
Author	Manciu, Marian Manciu, Felicia S. Sen, Surajit
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BackLink	https://www.osti.gov/biblio/6466059$$D View this record in Osti.gov
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Snippet	We consider a model dilute ferrofluid with the grains suspended in water (e.g.,γ-Fe2O3) and subject the system to a strong, homogeneous magnetic field directed... We consider a model dilute ferrofluid with the grains suspended in water (e.g.,[gamma]-Fe[sub 2]O[sub 3]) and subject the system to a strong, homogeneous...
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SubjectTerms	ACOUSTICS CHALCOGENIDES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS COLLOIDS DISPERSIONS FERROMAGNETIC MATERIALS FLUIDS GRAIN SIZE INKS IRON COMPOUNDS IRON OXIDES MAGNETIC FIELDS MAGNETIC MATERIALS MATERIALS MICROSTRUCTURE OXIDES OXYGEN COMPOUNDS PULSES QUASI PARTICLES SIZE SOLITONS SURFACE PROPERTIES SURFACE TENSION TRANSITION ELEMENT COMPOUNDS 661300 -- Other Aspects of Physical Science-- (1992-)
Title	Ejection of ferrofluid grains using nonlinear acoustic impulses— A particle dynamical study
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