Characterization of stainless steel and galvanized iron 0.5 mm thick laser weld joints

Characterization of stainless steel and galvanized iron 0.5 mm thick laser weld joints

The characterization of dissimilar metal welds is a promising area to understand the behavior of the weld joints. The previous study shows the characterization of similar and dissimilar metal welding of 1 mm and above thick sheets for changes in weld bead geometry, chemical composition and mechanica...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology Vol. 90; no. 1-4; pp. 383 - 395
Main Authors: Tadamalle, A. P., Reddy, Y. P., Ramjee, E., Reddy, K. V.
Format: Journal Article
Language:English
Published: London Springer London 01-04-2017
Springer Nature B.V
Subjects:
Austenitic stainless steels
CAE) and Design
Chemical composition
Computer-Aided Engineering (CAD
Crystal defects
Dislocation density
Dissimilar metals
Engineering
Galvanized iron
Galvanizing
Grain size
Industrial and Production Engineering
Laser beam welding
Lasers
Mechanical Engineering
Mechanical properties
Media Management
Microstrain
Neodymium lasers
Organic chemistry
Original Article
Orthogonal arrays
Porosity
Process parameters
Pulse duration
Semiconductor lasers
Sheets
Stainless steel
Weld defects
Weld strength
Welded joints
Welding parameters
YAG lasers
SEM
XRD
Nd: YAG laser
Microhardness
Butt welding
Dissimilar metals
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Summary:The characterization of dissimilar metal welds is a promising area to understand the behavior of the weld joints. The previous study shows the characterization of similar and dissimilar metal welding of 1 mm and above thick sheets for changes in weld bead geometry, chemical composition and mechanical properties at different process parameters. The objective of this paper is to study the influence of Nd: YAG laser welding process parameters on 0.5 mm thick sheets to understand the overall behavioral characteristics of 304 L stainless steel and galvanized iron. The experiments are conducted as per Taguchi’s orthogonal array design matrix. The samples are welded at different process parameters and examined for the variation in the microstructure, chemical composition, weld defects, grain size, phase contents, microstrain and dislocation density across the weld joint. The laser power and pulse duration are significantly affecting process parameters on weld bead geometry, porosity, mixing of metals and weld strength. The factors responsible for the reduction in weld strength are also identified. These findings are useful to understand the overall changes in weld characteristics and variation in mechanical properties. This study also helps to select process parameters for obtaining better quality weld joints in micro component welding.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-016-9364-z