TY - JOUR
T1 - A new friction stir welding based technique for corner fillet joints
T2 - Experimental and numerical study
AU - Buffa, G.
AU - Fratini, L.
AU - Arregi, B.
AU - Penalva, M.
PY - 2010/4
Y1 - 2010/4
N2 - Friction stir welding (FSW) is an energy efficient and environmentally friendly (no fumes, noise, or sparks) welding process, during which the sheets are welded together in a solid-state joining process. FSW is mature for simple configurations but a significant lack of knowledge is found when dealing with different designs such as T-sections, corner welds and box sections. The present work explores the feasibility of producing corner fillet geometries using FSW. Although such a kind of geometry has traditionally been considered unfeasible for the process, it seems to have a great potential to be used for T-joint configurations, a recurrent design pattern in transport applications. A specific tool has been developed and a set of welds has been produced with it. The process has been analysed by both micro and macro observations and a dedicated numerical model tuned by comparison of the thermal histories experimentally measured by embedded thermocouples. According to the obtained results, the proposed model is able to represent a useful design tool for the process. Main problem pending to be solved is how to avoid the formation of a tunnel defect in the weld centre line due to a suck effect of the tool on the stirred material.
AB - Friction stir welding (FSW) is an energy efficient and environmentally friendly (no fumes, noise, or sparks) welding process, during which the sheets are welded together in a solid-state joining process. FSW is mature for simple configurations but a significant lack of knowledge is found when dealing with different designs such as T-sections, corner welds and box sections. The present work explores the feasibility of producing corner fillet geometries using FSW. Although such a kind of geometry has traditionally been considered unfeasible for the process, it seems to have a great potential to be used for T-joint configurations, a recurrent design pattern in transport applications. A specific tool has been developed and a set of welds has been produced with it. The process has been analysed by both micro and macro observations and a dedicated numerical model tuned by comparison of the thermal histories experimentally measured by embedded thermocouples. According to the obtained results, the proposed model is able to represent a useful design tool for the process. Main problem pending to be solved is how to avoid the formation of a tunnel defect in the weld centre line due to a suck effect of the tool on the stirred material.
KW - FEM
KW - FSW
KW - T joints
UR - http://www.scopus.com/inward/record.url?scp=78651533478&partnerID=8YFLogxK
U2 - 10.1007/s12289-010-0948-0
DO - 10.1007/s12289-010-0948-0
M3 - Article
AN - SCOPUS:78651533478
SN - 1960-6206
VL - 3
SP - 1039
EP - 1042
JO - International Journal of Material Forming
JF - International Journal of Material Forming
IS - SUPPL. 1
ER -