Add to ORKGThe Acoustic Liquid Manipulation project at the NASA Glenn Research Center at Lewis Field is working with high-intensity ultrasound waves to produce acoustic radiation pressure and acoustic streaming. These effects can be used to propel liquid flows to manipulate floating objects and liquid surfaces. Interest in acoustic liquid manipulation has been shown in acoustically enhanced circuit board electroplating, microelectromechanical systems (MEMS), and microgravity space experiments. The current areas of work on this project include phased-array ultrasonic beam steering, acoustic intensity measurements, and schlieren imaging of the ultrasonic waves
Acoustic waves are a carrier of information mainly in environments where the use of other types of w...
Background For the design and characterization of ultrasonic particle manipulation devices the pres...
The current standard used for the characterization of ultrasonic transducers is the hydrophonic tech...
Working in concert with the NASA Technology Transfer and Partnership Office, the Great Lakes Industr...
High-intensity ultrasound waves can produce the effects of "Acoustic Radiation Pressure" (ARP) and "...
Ultrasonic acoustic fields have recently been used to generate haptic effects on the human skin as w...
Acoustic waves are a carrier of information mainly in environments where the use of other types of w...
Mapping of acoustic fields in the power ultrasound range in water is a rather common problem in dive...
Mapping of acoustic fields in the power ultrasound range in water is a rather common problem in dive...
In this study, we introduce a unique approach that employs time-resolved Schlieren imaging to captur...
Journal ArticleWe have assembled a Schlieren system for imaging the beam patterns from HIFU transduc...
At the NASA Lewis Research Center, high-intensity ultrasound is being used to create acoustic radiat...
Visualisation of acoustic waves in transparent media is described using schlieren and photoelastic p...
The current standard used for the characterization of ultrasonic transducers is the hydrophonic tech...
Fluids are difficult to manage in the space environment. Without gravity, the liquid and gas do not ...
Acoustic waves are a carrier of information mainly in environments where the use of other types of w...
Background For the design and characterization of ultrasonic particle manipulation devices the pres...
The current standard used for the characterization of ultrasonic transducers is the hydrophonic tech...
Working in concert with the NASA Technology Transfer and Partnership Office, the Great Lakes Industr...
High-intensity ultrasound waves can produce the effects of "Acoustic Radiation Pressure" (ARP) and "...
Ultrasonic acoustic fields have recently been used to generate haptic effects on the human skin as w...
Acoustic waves are a carrier of information mainly in environments where the use of other types of w...
Mapping of acoustic fields in the power ultrasound range in water is a rather common problem in dive...
Mapping of acoustic fields in the power ultrasound range in water is a rather common problem in dive...
In this study, we introduce a unique approach that employs time-resolved Schlieren imaging to captur...
Journal ArticleWe have assembled a Schlieren system for imaging the beam patterns from HIFU transduc...
At the NASA Lewis Research Center, high-intensity ultrasound is being used to create acoustic radiat...
Visualisation of acoustic waves in transparent media is described using schlieren and photoelastic p...
The current standard used for the characterization of ultrasonic transducers is the hydrophonic tech...
Fluids are difficult to manage in the space environment. Without gravity, the liquid and gas do not ...
Acoustic waves are a carrier of information mainly in environments where the use of other types of w...
Background For the design and characterization of ultrasonic particle manipulation devices the pres...
The current standard used for the characterization of ultrasonic transducers is the hydrophonic tech...