TY - JOUR

T1 - Application of low transformation-temperature filler to reduce the residual stresses in welded component

AU - Azizpour, K.

AU - Moshayedi, H.

AU - Sattari-Far, I.

N1 - Publisher Copyright: © 2019 Universiti Malaysia Pahang. All rights reserved.

PY - 2019/3

Y1 - 2019/3

N2 - Tensile residual stress is a major issue in integrity of the welded structures. Undesirable tensile residual stress in welding may reduce fracture toughness and fatigue life of welded structures. The low transformation-temperature (LTT) fillers, due to introducing compressive residual stresses caused by prior martensitic transformation, can reduce tensile residual stresses in the weld zone. The effects of using LTT fillers on welding residual stresses of high strength steel sheets are studied and compared with conventional fillers. 3D finite element simulations including coupled thermal-metallurgical-mechanical analyses are developed using SYSWELD software to predict the welding residual stresses. For validation of the finite element model, the residual stresses are measured through hole drilling strain gage method. The results indicate that using the LTT fillers cause a decrease of the longitudinal tensile residual stresses of the weld metal from 554 MPa to 216 MPa in comparison with conventional fillers. The transverse residual stresses of the weld line are changed from tensile 156 MPa to compressive 289 MPa with using LTT fillers instead of conventional fillers.

AB - Tensile residual stress is a major issue in integrity of the welded structures. Undesirable tensile residual stress in welding may reduce fracture toughness and fatigue life of welded structures. The low transformation-temperature (LTT) fillers, due to introducing compressive residual stresses caused by prior martensitic transformation, can reduce tensile residual stresses in the weld zone. The effects of using LTT fillers on welding residual stresses of high strength steel sheets are studied and compared with conventional fillers. 3D finite element simulations including coupled thermal-metallurgical-mechanical analyses are developed using SYSWELD software to predict the welding residual stresses. For validation of the finite element model, the residual stresses are measured through hole drilling strain gage method. The results indicate that using the LTT fillers cause a decrease of the longitudinal tensile residual stresses of the weld metal from 554 MPa to 216 MPa in comparison with conventional fillers. The transverse residual stresses of the weld line are changed from tensile 156 MPa to compressive 289 MPa with using LTT fillers instead of conventional fillers.

KW - Coupled thermal-metallurgical-mechanical analyses

KW - Finite element simulation

KW - Low transformation-temperature filler

KW - Phase transformation

KW - Welding residual stress

UR - http://www.scopus.com/inward/record.url?scp=85065484391&partnerID=8YFLogxK

U2 - 10.15282/jmes.13.1.2019.14.0384

DO - 10.15282/jmes.13.1.2019.14.0384

M3 - Article

VL - 13

SP - 4536

EP - 4557

JO - Journal of Mechanical Engineering and Sciences

JF - Journal of Mechanical Engineering and Sciences

IS - 1

ER -