Uwe Füssel scite author profile

A computational model of the argon arc plasma in gas–metal arc welding (GMAW) that includes the influence of metal vapour from the electrode is presented. The occurrence of a central minimum in the radial distributions of temperature and current density is demonstrated. This is in agreement with some recent measurements of arc temperatures in GMAW, but contradicts other measurements and also the predictions of previous models, which do not take metal vapour into account. It is shown that the central minimum is a consequence of the strong radiative emission from the metal vapour. Other effects of the metal vapour, such as the flux of relatively cold vapour from the electrode and the increased electrical conductivity, are found to be less significant. The different effects of metal vapour in gas–tungsten arc welding and GMAW are explained.

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3D-printed steel reinforcement for digital concrete construction – Manufacture, mechanical properties and bond behaviour

Mechtcherine

Grafe

Spaniol

et al. 2018

Construction and Building Materials

223

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Numerical simulation of droplet detachment in pulsed gas–metal arc welding including the influence of metal vapour

Hertel

Spille-Kohoff

Füssel

et al. 2013

J. Phys. D: Appl. Phys.

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Spatial structure of the arc in a pulsed GMAW process

Kozakov¹,

Gött²,

Schöpp³

et al. 2013

J. Phys. D: Appl. Phys.

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Characterisation of oxide and hydroxide layers on technical aluminum materials using XPS

Zähr

Oswald

Türpe

et al. 2012

Vacuum

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Numerical simulation of arc and droplet transfer in pulsed GMAW of mild steel in argon

2016

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The process capability of gas metal arc welding (GMAW) processes is mainly determined by the arc properties and the material transfer. In recent years, numerical methods are being used increasingly in order to understand the complex interactions between the arc and material transfer in gas metal arc welding. In this paper, we summarize a procedure to describe the interaction between an arc and a melting and vaporizing electrode. Thereafter, the presented numerical model is used to investigate the arc properties and the metal transfer for a pulsed GMAW process of mild steel in argon. The results of the numerical simulation are compared with OES measurements as well as high-speed images at different times in the pulse cycle and show excellent agreement. The results illustrate the high influence of the changing vaporization rate on the arc attachment at the wire electrode in the high current phase. It could be shown that a substantial part of the current does not participate in the constriction of the wire electrode via the resulting lorentz force which explains the nearly spatter-free droplet detachment in pulsed GMAW processes of mild steel in argon shielding gas.

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Process characteristics of fibre-laser-assisted plasma arc welding

Mahrle¹,

Schnick²,

Rose³

et al. 2011

J. Phys. D: Appl. Phys.

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Abstract. Experimental and theoretical investigations on fibre-laser assisted plasma arc welding (LAPW) have been performed. Welding experiments were carried out on aluminium and steel sheets. In case of a highly focused laser beam and a separate arrangement of plasma torch and laser beam, high-speed video recordings of the plasma arc and corresponding measurements of the time-dependent arc voltage revealed differences in the process behaviour for both materials. In case of aluminium welding, a sharp decline in arc voltage and stabilization and guiding of the anodic arc root was observed whereas in steel welding the arc voltage was slightly increased after the laser beam was switched on. However, significant improvement of the melting efficiency with the combined action of plasma arc and laser beam was achieved for both types of material. Theoretical results of additional numerical simulations of the arc behaviour suggest that the properties of the arc plasma are mainly influenced not by a direct interaction with the laser radiation but by the laser induced evaporation of metal. Arc stabilization with increased current densities is predicted for moderate rates of evaporated metal only whereas metal vapour rates above a certain threshold causes a destabilization of the arc and reduced current densities along the arc axis.

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Naturally occurring conjugated bile acids, measured by high-performance liquid chromatography, in human, dog, and rabbit bile

Wildgrube¹,

Stockhausen²,

Petri³

et al. 1986

Journal of Chromatography A

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Uwe Füssel

Metal vapour causes a central minimum in arc temperature in gas–metal arc welding through increased radiative emission

3D-printed steel reinforcement for digital concrete construction – Manufacture, mechanical properties and bond behaviour

Numerical simulation of droplet detachment in pulsed gas–metal arc welding including the influence of metal vapour

Spatial structure of the arc in a pulsed GMAW process

Characterisation of oxide and hydroxide layers on technical aluminum materials using XPS

Numerical simulation of arc and droplet transfer in pulsed GMAW of mild steel in argon

Process characteristics of fibre-laser-assisted plasma arc welding

Naturally occurring conjugated bile acids, measured by high-performance liquid chromatography, in human, dog, and rabbit bile

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