Effect Of Slab Thickness On Weld Distortion Results In Medium Carbon Steel AISI 1045 By SMAW Method
Abstract: This research aimed
to investigate the effect of width plate variation to distortion caused by
welding in AISI 1045 light steel alloy plate. This kinds of steel is formable
by heat treatment and often for making mechanical component use. Sometimes
repairing mechanical component was done by welding. The deformation that
occurred by welding are caused by distortion. Distortion is shape
transformation proccess of welding result which caused by unbalance between
expanding metal while heating and shrink while colding.
This research takes places in Bureau of Work and Training (BLK) Bandar
Lampung, for making the test specimen and distortion measurement, while the
hardness test and microstructure test held in Material Laboratory Lampung
University. Before testing the specimen, first of all the steel must be welded
well, using Shielded Metal Arc Welding (SMAW) method. The electrode which used
for welding is E 6013 RB 26, while the joint are V form with 80 A electric
current. The welding region that will be the sample data test are base metal,
HAZ, and weld metal for hardness test and microstructure test. The variation of
plate width are 2, 5, 8 mm.
From the result of testing materials, we can make some conclution which
is, the largest distortion level experienced by plate occurred in 8 mm width of
plate, while the largest hardness number
experienced by plate occurred in base metal region with 57,5 HRC number.
Although, the 8 mm width of plate is the most thick of all specimen, the
hardness number in HAZ refgion has the smallest number of hardness.
Penulis: Irsyad Haryono Aulia,
Tarkono, Zulhanif
Kode Jurnal: jptmesindd130515
