This work was carried out to investigate the effect of welding variables, such as wire feeding technique and heat input, on the pitting corrosion resistance in the multi-pass weld and heat affected zone(HAZ)of a super duplex stainless steel. To enable control of welding variables such that one parameter can be varied at a time, a series of weldment using semi-automatic welding process were completed. The method used for pitting resistance tests was the basic ASTM G48-76 standard, with reference to the ASTM A923-94 standard and recommended practice for pitting corrosion tests for duplex stainless steel weldments by the use of ferric chloride solution from The Welding Institute (TWI). It is evident from the test results that the use of a low (1.1 kJ/mm) or an excessive high heat input (1.8kJ/mm) or oscillated filler wire entering into the back of the weld pool tends to decrease the critical pitting temperature. The best corrosion resistance was obtained when an intermediate heat input (1.4 kJ/mm, providing a suitable cooling rate) with the conventional wire feeding technique (filler wire fed into the front of weld pool) was used.