J.-L. Marques scite author profile

J.-L. Marques

3Publications

56Citation Statements Received

97Citation Statements Given

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Modelling of arc behaviour inside a F4 APS torch

Ramachandran¹,

Marques²,

Vaßen³

et al. 2006

J. Phys. D: Appl. Phys.

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The plasma arc inside the F4 torch used for atmospheric plasma spraying is characterized by means of analytical and numerical methods. A simplified analytical model is formulated to understand the physical behaviour of the plasma arc. A three-dimensional numerical model is developed to simulate the realistic plasma arc flow inside the torch. At a given torch power and gas flow rate, possible combinations of the arc core radius and arc length are predicted. The thermodynamic principle of minimum entropy production is used to determine the combination of arc core radius and arc length, which corresponds to the actual physical situation of the arc inside the torch. The effect of arc current and gas flow rate on the plasma arc characteristics is clarified. The effect of hydrogen content in the plasma gas on its velocity and temperature profiles at the nozzle exit is shown. Predicted torch efficiencies are comparable to measured ones. The results of the numerical model are similar to that an analytical model. Previously published experimental and numerical results support part of the present results.

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Multi-Electrode Plasma Torches: Motivation for Development and Current State-of-the-Art

Marques¹,

Förster²,

Schein³

2009

TOPPJ

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Multi-electrode plasma torches are becoming increasingly popular in the thermal spray community due to their good stability and high power plasma jet even when operated with inert gases. Currently the models in use feature either three cathodes and a single anode or three individual anodes connecting to a single cathode. The motivation for development of these plasma torches is based on the inherent instability of single anode/single cathode systems which leads to fluctuating plasma jets resulting in inhomogeneous particle heating. The use of multi-electrode systems has expanded into the realm of low pressure plasma spraying and vacuum plasma spraying with promising results, while atmospheric plasma spraying results show improved coating quality compared to conventional systems. Current research focuses on the development of numerical process modeling as well as the application of advanced diagnostics for process analysis, opening up opportunities for improvement and process control.

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The Influence of Plasma Characteristics on Particle Properties During Plasma-Spraying of Yttria Stabilized Zirconia Using a Triplex Torch

Döring¹,

Stöver²,

Vaßen³

et al. 2004

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The heat and momentum transfer of the plasma to the injected particles is an important issue in coating formation during plasma spraying. In this study, the plasma temperature and velocity of a Triplex-I torch was measured by means of an enthalpy probe system. Additionally, the properties of injected yttria-stabilized-zirconia powder of a fine sized fraction were recorded spatially resolved by using a DPV2000 system. The plasma temperature and velocity are decreasing by increasing the distance from 45 to 60 mm with respect to the torch exit by approximately 50% from initially 6200°C and 400 m/s, respectively. In contrast, the particles gain temperature up to the melting point at 70 mm stand-off distance as well as the velocity rises up to its highest value of 115 m/s at the maximum flow rate of the particles. Both, plasma and particle characteristics were used to obtain a deeper insight on heat- and momentum transfer of the plasma jet to the single particles.

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J.-L. Marques

Modelling of arc behaviour inside a F4 APS torch

Multi-Electrode Plasma Torches: Motivation for Development and Current State-of-the-Art

The Influence of Plasma Characteristics on Particle Properties During Plasma-Spraying of Yttria Stabilized Zirconia Using a Triplex Torch

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