Study of the Friction Stir Welding For A516 Low Carbon Steel

Main Article Content

Qasim Mouhamed Doos
Riyadh F. Farhan

Abstract

The main objective of present work is to describe the feasibility of friction stir welding (FSW) for
joining of low carbon steel with dimensions (3 mm X 80 mm X 150 mm). A matrix (3×3) of welding
parameters (welding speed and tool rotational speed) was used to see influence of each parameter on
properties of welded joint .Series of (FSW) experiments were conducted using CNC milling machine
utilizing the wide range of rotational speed and transverse speed of the machine. Effect of welding
parameters on mechanical properties of weld joints were investigated using different mechanical tests
including (tensile and microhardness tests ). Micro structural change during (FSW) process was
studied and different welding zones were investigated using optical microscope. The stir welding
experiments conducted that show the low carbon steel can be welded using (FSW) process with
maximum welding efficiency (100.02%) in terms of ultimate tensile strength using best result of
welding parameters (700 RPM, 25 mm/min, tool rotational speed and welding speed respectively and
0.2 mm plunging depth of welding tool) ,there is afirst time that we obtain the efficiency reach to
100.02 % to weld this type of low carbon steel by FSW. The corrosion resistance was measure which
is the new test on the welding by this way and we obtained different result from the result on
traditional welding processes and the result that obtained show the corrosion resistance for this
welding plate better than the base metal. Maximum temperature has been calculated numerically by
using the ANSYS program. The obtained peak temperature is 1102°C, A percentage minimum of the
melting point .

Article Details

How to Cite
“Study of the Friction Stir Welding For A516 Low Carbon Steel” (2014) Journal of Engineering, 20(01), pp. 132–150. doi:10.31026/j.eng.2014.01.10.
Section
Articles

How to Cite

“Study of the Friction Stir Welding For A516 Low Carbon Steel” (2014) Journal of Engineering, 20(01), pp. 132–150. doi:10.31026/j.eng.2014.01.10.

Publication Dates

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