Dose uniformity of fine powders in ultrasonic microfeeding
Dose uniformity of fine powders in ultrasonic microfeeding
Ultrasonic microfeeding can be used in solid freeforming and pharmaceutical dosing. In this work, dose uniformity was studied because it is one of the important factors in evaluation of microfeeding. The experiments were carried out in a computer-controlled microfeeding system. The powders used were H13 tool steel, tungsten carbide (WC) and glass beads. The experimental results show that the minimum dose mass for these powders in a 0.2 mm diameter nozzle is close to 0.1 mg, 14 ?g and 16 ?g respectively. The probability distributions of relative mean dose mass deviation can be divided into four categories: single symmetrical peak, single positive skewed peak, single negative skewed peak or double peaks. Because the signal amplitude voltage and oscillation period are the two important factors influencing dose mass, the effects of these two factors on standard deviation, relative standard deviation and probability distribution were studied and discussed.
microfeeding, ultrasonic vibration, dose uniformity
63-72
Lu, Xuesong
e3eb4386-7dc9-417e-bd5c-bbdec78f7ec5
Yang, Shoufeng
e0018adf-8123-4a54-b8dd-306c10ca48f1
Evans, Julian R. G.
1e4ff64d-fdc6-460e-ae9f-f41746899f57
6 June 2007
Lu, Xuesong
e3eb4386-7dc9-417e-bd5c-bbdec78f7ec5
Yang, Shoufeng
e0018adf-8123-4a54-b8dd-306c10ca48f1
Evans, Julian R. G.
1e4ff64d-fdc6-460e-ae9f-f41746899f57
Lu, Xuesong, Yang, Shoufeng and Evans, Julian R. G.
(2007)
Dose uniformity of fine powders in ultrasonic microfeeding.
Powder Technology, 175 (2), .
(doi:10.1016/j.powtec.2007.01.029).
Abstract
Ultrasonic microfeeding can be used in solid freeforming and pharmaceutical dosing. In this work, dose uniformity was studied because it is one of the important factors in evaluation of microfeeding. The experiments were carried out in a computer-controlled microfeeding system. The powders used were H13 tool steel, tungsten carbide (WC) and glass beads. The experimental results show that the minimum dose mass for these powders in a 0.2 mm diameter nozzle is close to 0.1 mg, 14 ?g and 16 ?g respectively. The probability distributions of relative mean dose mass deviation can be divided into four categories: single symmetrical peak, single positive skewed peak, single negative skewed peak or double peaks. Because the signal amplitude voltage and oscillation period are the two important factors influencing dose mass, the effects of these two factors on standard deviation, relative standard deviation and probability distribution were studied and discussed.
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Published date: 6 June 2007
Keywords:
microfeeding, ultrasonic vibration, dose uniformity
Organisations:
Engineering Mats & Surface Engineerg Gp
Identifiers
Local EPrints ID: 165051
URI: http://eprints.soton.ac.uk/id/eprint/165051
ISSN: 0032-5910
PURE UUID: f910afee-95a4-41e1-a172-5600daccf019
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Date deposited: 07 Oct 2010 08:08
Last modified: 14 Mar 2024 02:09
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Contributors
Author:
Xuesong Lu
Author:
Julian R. G. Evans
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