Experimental Study on the Staining Method for Measuring Acoustic Field for Ultrasonic Process

Guo Feng Wang; K.H. Zhang; Shuang Lu; C.L. Hong

doi:10.4028/www.scientific.net/AMR.188.94

Paper Titles

Incidence Analysis on Characteristic of High Speed Ball-End Milling Hardened Steel
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An Experimental Study on Rough Ball-End Milling of T10A Steel
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The Mechanical Behavior of Carbon Steel in the Super High-Speed Cutting State
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An Experimental Study on Grinding of SiC/Al Composites
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Experimental Study on the Staining Method for Measuring Acoustic Field for Ultrasonic Process
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Experimental Study on the Dynamic Characteristics of High Speed Milling on Inclined Planes
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Module Partition and Application for Printed Circuit Board High Speed Drilling Machine
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Experimental Study and Theory Prediction on Adiabatic Shear Critical Conditions of Fe-36Ni Invar Alloy
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Critical Thickness and Dynamic Stiffness for Chatter Avoidance in Thin Floors Milling
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HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 188Experimental Study on the Staining Method for...

Experimental Study on the Staining Method for Measuring Acoustic Field for Ultrasonic Process

Abstract:

In order to research the feasibility of staining method in measuring the acoustic field intensity, we study the mechanism that dye spots could appear on coated paper in methylene blue solution under ultrasonic condition. The dyeing mechanism was analyzed and pointed out the dye pits evolution process on the basis of the structure of coated paper，and then the experiment was carried out to test the validation. The result indicates that the theory is rational. And we can also draw the conclusion that staining method have many barriers in pullulating to a utility technology to evaluate the acoustic field quantitatively, but it is simple and easy operating in special acoustic field which requires less accuracy.

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Periodical:

Advanced Materials Research (Volume 188)

Pages:

94-98

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.188.94

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Online since:

March 2011

Authors:

Guo Feng Wang, K.H. Zhang, Shuang Lu, C.L. Hong

Keywords:

Acoustic Field, Methylene Blue (MB), Staining Method, Ultrasonic Cavitation

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