Weldability and toughness evaluation of pressure vessel quality steel using the shielded metal arc welding (SMAW) process

摘要

The present study was carried out to assess the weldability properties of ASTM A537 Cl. 1 pressure-vessel quality steel using the shielded metal arc welding (SMAW) process. Implant and elastic restraint cracking (ERC) tests were conducted underdifferent welding conditions to determine the cold cracking susceptibility of the steel. The static fatigue limit values determined for the implant test indicate adequate resistance to cold cracking even with unbaked electrodes. The ERC test, however,established the necessity to rebuke the electrodes before use. Lamellar tearing tests carried out using full-thickness plates under three welding conditions show~ed no incidence of lamellar tearing upon visual examination, ultrasonic inspection, andfour-section macroexamination. Lamellar tearing tests were repeated using machined plates, such that the central segregated band located at the midthickness of the plate corresponded to the heat-affected zone (HAZ) of the weld. Only in one (no rebuke,heat input: 14.2 kJ cm{sup}-1, weld restraint load: 42 kg mm{sup}-2) of the eight samples tested was lamellar tearing observed. This was probably accentuated due to the combined effects of the presence of localized pockets of a hard phase (bainite) and ahigh hydrogen level (unbaked electrodes) in the weld joint. Optimal welding conditions were formulated based on the above tests. The weld joint was subjected to extensive tests and found to exhibit excellent strength (tensile strength: 56.8kg mm{sup}-2,or 557 MPa), and low temperature impact toughness (7.4 and 4.5 kg-m at -20 ℃ for weld metal, WM, and HAZ) properties. Crack tip opening displacement tests carried out for the WM and HAZ resulted inδ{sub}m values 0.36 and 0.27 mm, respectively, whichindicates adequate resistance to brittle fracture.