Particle size distribution in a wire-arc spraying system

A. Pourmousa; J. Mostaghimi; A. Abedini; S. Chandra

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Particle size distribution in a wire-arc spraying system

机译：线电弧喷涂系统中的粒径分布

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摘要

The size and velocity of particles produced by a ValuArc 200 (Sulzer-Metco, Westbury, NY) twin-wire-arc spraying system were measured in-flight using a DPV-2000 system (Tecnar Ltd., St-Bruno, QC, Canada) for a range of operating parameters. A technique was developed to identify and separate the size distributions of particles produced by atomization of molten metal at either the anode or the cathode by assuming that both follow a log-normal distribution. It was shown that particles produced by the anode are almost two times larger in diameter than those originating from the cathode. Experiments showed that increasing the pressure of atomizing gas decreased the size of both anodic and cathodic particles, but changing wire feed rate and operating voltage did not change particle size significantly.

机译：使用DPV-2000系统（Tecnar Ltd.，St-Bruno，QC，加拿大）在飞行中测量了ValuArc 200（Sulzer-Metco，纽约州韦斯特伯里，纽约）双线电弧喷涂系统产生的颗粒的大小和速度。）以获取一系列操作参数。通过假设阳极和阴极都遵循对数正态分布，开发了一种技术来识别和分离由熔融金属雾化产生的颗粒的尺寸分布。结果表明，阳极产生的颗粒直径几乎是源自阴极的颗粒直径的两倍。实验表明，增加雾化气体的压力会减小阳极和阴极颗粒的尺寸，但是改变送丝速率和工作电压并不会显着改变颗粒尺寸。

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来源
《Journal of Thermal Spray Technology》 |2005年第4期|502-510|共9页
作者
A. Pourmousa; J. Mostaghimi; A. Abedini; S. Chandra;
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作者单位

Centre for Advanced Coating Technologies (CACT) University of Toronto 5 King’s College Road Toronto M5S 3G8 Ontario Canada;

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原文格式 PDF
正文语种 eng
中图分类
关键词
diagnostics and control; size distribution; twin wire-arc spray;

机译：诊断和控制;尺寸分布;双丝电弧喷涂;

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专利

1. Particle Size Distribution in a Wire-Arc Spraying System [J] . A. Pourmousa, J. Mostaghimi, A. Abedini, Journal of Thermal Spray Technology . 2005,第4期

机译：线弧喷涂系统中的粒径分布
2. Supervision and Measuring of Particle Parameters During the Wire-Arc Spraying Process with the Diagnostic Systems Accuraspray-g3 and LDA (Laser-Doppler-Anemometry) [J] . S. Zimmermann, E. Vogli, M. Kauffeldt, Journal of Thermal Spray Technology . 2010,第4期

机译：使用诊断系统Accuraspray-g3和LDA（激光多普勒风速仪）对电弧喷涂过程中的粒子参数进行监督和测量
3. A Design of Experiment Study of Nanoprecipitation and Nano Spray Drying as Processes to Prepare PLGA Nano- and Microparticles with Defined Sizes and Size Distributions [J] . Christina Draheim, Francois de Crécy, Steffi Hansen, Pharmaceutical Research . 2015,第8期

机译：纳米沉淀和纳米喷雾干燥作为制备尺寸和尺寸分布确定的PLGA纳米和微粒的工艺的实验研究设计
4. Particle Diagnostics in Wire-Arc Spraying System [C] . A. Pourmousa, A. Abedini, J. Mostaghimi, Thermal Spray Solutions: Advances in Technology and Application . 2004

机译：电弧喷涂系统中的颗粒诊断
5. Wire-arc spraying system: Particle production, transport, and deposition. [D] . Pourmousa Abkenar, AmirHossein. 2007

机译：线弧喷涂系统：颗粒的产生，运输和沉积。
6. New Proposal for Size and Size-Distribution Evaluation of Nanoparticles Synthesized via Ultrasonic Spray Pyrolysis Using Search Algorithm Based on Image-Processing Technique [O] . Elif Emil Kaya, Ozan Kaya, Gözde Alkan, 2020

机译：基于图像处理技术的搜索算法对超声喷雾热解法合成纳米颗粒尺寸和尺寸分布的新建议
7. Residence time distributions of different size particles in the spray zone of a Wurster fluid bed studied using DEM-CFD [O] . Li, L, Remmelgas, J, van Wachem, BGM, 2015

机译：使用DEm-CFD研究了Wurster流化床喷雾区中不同尺寸颗粒的停留时间分布
8. Size and Velocity Distributions of Particles and Droplets in Spray Combustion Systems [R] . Hirleman, E. D. 1984

机译：喷雾燃烧系统中颗粒和液滴的尺寸和速度分布

Particle size distribution in a wire-arc spraying system

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