ABREU, F. M.; MENDES, FRANCISCO.; DE ABREU, FRANCISCO MENDES.; http://lattes.cnpq.br/4960268319454841; ABREU, Francisco Mendes de.
Resumo:
The objective of this work is to investigate the relationship between the variation
in welding parameters using the SMAW and GTAW processes, along with the
use of related techniques, and the properties of welded joints in ARBL steel, with
a special focus on toughness and hardness. The aim is to ensure greater safety
in operations and prevent sudden interruptions for maintenance in boilers in the
sugarcane and alcohol sector. In this study, an ASTM 335 P22 steel pipe with an
outer diameter of 73 mm and a wall thickness of 9.53 mm was used. Four joints
were fabricated, referred to as joints 01, 02, 03, and 04. Joints 01 and 02 were
welded using the SMAW process (root pass + hot pass + filler pass), while joints
03 and 04 were welded using the GTAW process for the root pass and the SMAW
process for the hot pass and filler pass. In both processes, there was variation in
the current and consequently the Welding energy. Metallographic analysis
revealed that the base metal of the welded joints had a ferrite-pearlite
microstructure, characteristic of steels in the 2.25Cr-1.0Mo family. The heat-
affected zones of joints 01, 02 and 03 exhibited a microstructure composed of
ferrite and tempered bainite. Whereas the heat-affected zone of joints 04 showed
a microstructure consisting of ferrite, tempered bainite and regions containing
martensite. The weld metal region of joints 01, 02 and 03 is composed of ferrite
and tempered bainite, while joint 04 exhibits regions of martensite. Vickers
microhardness tests showed that only joint 02 exhibits an average microhardness
below 250 HV in the HAZ and the weld metal. The results of Charpy impact tests
conducted at -30°C revealed a completely brittle behavior in all joints in the weld
metal region.
