Welding fume reduction by nano-alumina coating on electrodes – towards green welding process

Welding fume reduction by nano-alumina coating on electrodes – towards green welding process

Fume reduction from the welding process is important from the perspective of environmental pollution and protection to the health of the welder. A novel method of reducing welding fumes at source towards green welding process has been worked out after nano coating of conventional electrodes. This me...

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Bibliographic Details
Published in:Journal of cleaner production Vol. 108; pp. 131 - 144
Main Authors: Sivapirakasam, S.P., Mohan, Sreejith, Santhosh Kumar, M.C., Surianarayanan, M.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2015
Subjects:
Metallographic studies
Nano-alumina coating
Physical properties
Response surface methodology
Welding fumes
Nano-alumina coating
Metallographic studies
Response surface methodology
Welding fumes
Physical properties
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Summary:Fume reduction from the welding process is important from the perspective of environmental pollution and protection to the health of the welder. A novel method of reducing welding fumes at source towards green welding process has been worked out after nano coating of conventional electrodes. This method involves the dipping of a core welding wire, prior to its flux coating, in a sol containing aluminium iso-propoxide, to obtain a thin film of nano alumina coating. The nano-coated electrodes did reduce the concentration of fumes up to 62% in the welder's breathing zone, when tested vis-à-vis the concentration from uncoated counterpart. A substantial reduction in the concentration of metallic constituents in the fumes of coated electrodes was noted too. Central Composite Design matrix of response surface methodology was applied in designing these experiments and investigating the effect of coating process parameters on the welding fumes at the breathing zone of the welder. The reduction was found to be more for a homogenous deposit with lower crystallite size. Metallographic studies of the weld from nano-alumina coated electrodes showed fine grained acicular and widmanstatten ferrites with increased hardness. This is one of the first studies that verified experimentally the role of parameters such as crystallite size, specific heat capacity and latent heat of fusion through nano coating of electrode wire, in reducing the concentration of airborne particulates in welding fumes. •Nano Al2O3 was deposited on the bare welding wire using dip-coating technique.•Coated wires provided a 62% reduction in the fumes as compared to uncoated one.•Morphology and crystallite size of the deposit influences the volume of fumes.•Coating alters the physical properties of the welding wire.•Coated electrodes show superior weld properties.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2015.06.132