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Volumn , Issue , 2007, Pages 1862-1865
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Effect of ultrasound exposure in standing wave sound field on isoelectric point of nanometer sized diamond particles for abrasive agents
a a b b |
Author keywords
Acoustic cavitation; Dispersion stabilitye; Isoelectric point; Nanometer sized diamond particle
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Indexed keywords
ABRASIVES;
ACOUSTIC FIELD MEASUREMENT;
ACOUSTIC FIELDS;
ACOUSTIC WAVES;
ACOUSTICS;
DIAMONDS;
DISPERSION (WAVES);
ELASTIC WAVES;
ELECTROACOUSTIC TRANSDUCERS;
HYDROCHLORIC ACID;
IONIZATION OF GASES;
NONMETALS;
OXYGEN;
SODIUM;
STANDING WAVE METERS;
SYSTEM STABILITY;
ULTRASONIC TRANSMISSION;
ULTRASONICS;
WATER TANKS;
WAVES;
ZETA POTENTIAL;
ABSOLUTE VALUES;
ACOUSTIC CAVITATION;
ACTIVE OXYGEN SPECIES;
AVERAGE PARTICLE SIZE;
CENTRAL REGION;
DIAMOND PARTICLES;
DISPERSION MEDIUM;
DISPERSION STABILITY;
DISPERSION STABILITYE;
DISTILLED WATER;
ISO-ELECTRIC POINTS;
ISOELECTRIC POINT;
NANOMETER SIZED DIAMOND PARTICLE;
OPERATING FREQUENCIES;
PRECISION POLISHING;
SOUND FIELDS;
SOUND PRESSURE DISTRIBUTION;
SOUND PRESSURES;
STANDING WAVE;
STANDING WAVE ACOUSTIC FIELD;
SURFACE MODIFICATIONS;
ULTRASOUND EXPOSURE;
ZETA POTENTIALS;
PH;
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EID: 48149113929
PISSN: 10510117
EISSN: None
Source Type: Conference Proceeding
DOI: 10.1109/ULTSYM.2007.468 Document Type: Conference Paper |
Times cited : (1)
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References (7)
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