BESST - Breakthrough in Eu­rope­an Ship and Ship­buil­ding Tech­no­lo­gies

Work­pa­cka­ge on the po­ten­ti­als of laser wel­ding for pro­duct per­for­mance

High value ships as crui­se liner, fer­ries and navy ves­sels re­qui­re light weight so­lu­ti­ons. Fa­ti­gue pro­per­ties of weld seams are a dri­ving fac­tor for the de­sign of ship struc­tu­res, as over its life­time a ship has to en­du­re many mil­li­ons of load cy­cles. This pro­ject in­ves­ti­ga­ted the fa­ti­gue strength of thin pla­ted ship struc­tu­res.

The par­tici­pa­ting ship yards pre­pa­red butt and fil­let weld joints of thin pla­tes uti­li­zing their laser, laser hy­brid and con­ven­tio­nal weld plants. Ex­haus­ti­ve ex­pe­ri­men­tal and theo­re­ti­cal stu­dies were per­for­med on the spe­ci­mens; e.g. weld geo­me­try sta­ti­s­tics, mi­crost­ruc­tu­re and hard­ness pro­files, SN-cur­ves, FE Ana­ly­sis.

The fa­ti­gue as­sess­ments prove strong im­pact of the weld pro­cess re­la­ted mi­s­a­li­gn­ments and de­flec­tions. The re­le­vant re­sults were clas­si­fied ac­cording to a clas­si­fi­ca­ti­on so­cie­ty´s rules for use in daily en­gi­nee­ring pro­ces­ses.  A FME(C) Ana­ly­sis was con­duc­ted and some pro­to­ty­pe de­signs of novel ship sec­tions were crea­ted to prove the ef­fects.

Part­ners: Aalto Uni­ver­si­ty, Cen­ter of Ma­ri­ti­me Tech­no­lo­gies, Fin­can­tie­ri, Flens­bur­ger Schiff­bau-Ge­sell­schaft, Ger­ma­ni­scher Lloyd, Meyer Werft, STX Fin­land, Ham­burg Uni­ver­si­ty of Tech­no­lo­gy, Thys­sen­Krupp Ma­ri­ne Sys­tems.

The pro­ject was fun­ded within the 7th Frame Work Pro­gram­me of the Eu­rope­an Com­mis­si­on. The Uni­ver­si­ty of Southern Den­mark awar­ded a PhD de­gree to FH Kiels gra­dua­te L. Mol­ter for his re­se­arch on laser, laser hy­brid and arc shield wel­ded 3 mm pla­tes.