Experimental and numerical investigation of the weld repair of superplastic forming dies

Branza, Traian; Duchosal, Arnaud; Fras, Gilles; Deschaux-Beaume, Frédéric; Lours, Philippe

doi:10.1016/j.jmatprotec.2004.04.388

Cited by 14 publications

(12 citation statements)

References 3 publications

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“…Beyond 16 passes, cracks further propagate or new cracks initiate resulting in an increased total crack length reaching its maximum value as the entire filling of the V-groove is completed (40 passes). These preliminary experimental observations confirm the results related in a previous work (Branza et al, 2004a) showing an increase of the calculated maximal stress as welding passes cumulate in the frame of a multi-pass process. Fig.…”

Section: Weld-repair With Standard Multi-pass Techniquesupporting

confidence: 91%

“…These materials, used for manufacturing large SPF tools (Branza et al, 2004a), are investigated in the shape of bulk parallelepipedic specimen with dimensions representative of industrial dies. A standard weld-repair technique with two different filler metals as well as the results obtained in terms of structural integrity are first presented and discussed.…”

Section: Introductionmentioning

confidence: 99%

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Study and prevention of cracking during weld-repair of heat-resistant cast steels

Branza

Deschaux-Beaume

Sierra

et al. 2009

Journal of Materials Processing Technology

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Section: Weld-repair With Standard Multi-pass Techniquesupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Study and prevention of cracking during weld-repair of heat-resistant cast steels

Branza

Deschaux-Beaume

Sierra

et al. 2009

Journal of Materials Processing Technology

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“…In contrast, the samples weldrepaired with 17 and 40 passes show numerous cracks in the base metal, close to the welding zone ( Figure 13). This area corresponds to the zone where the stresses induced by thermal gradients are higher, as evidenced in previous studies [12,13]. The cracks number and size increase when the pass number increases from 17 to 40.…”

Section: Analysis Of Weld-repaired Samplessupporting

confidence: 60%

“…A strain-controlled fatigue test was selected in order to simulate the mechanical strain resulting from the thermal gradient due to multi-pass welding, each welding pass (up to 50 and more during weld-repair of SPF dies) generating a rapid thermal cycle. The strain amplitudes were selected to be representative of typical strain cycles suffered by the material during multipass welding, evaluated using numerical simulation [12,13]. Five strain amplitudes, 0.4, 0.5, 0.6, 0.7 and 0.8%, resulting in a slight plastic strain at each cycle, were chosen.…”

Section: Characterization Methodsmentioning

confidence: 99%

Analysis of weld-cracking and improvement of the weld-repair process of superplastic forming tools

Duchosal

Deschaux-Beaume

Lours

et al. 2013

Materials & Design (1980-2015)

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of weld-cracking and improvement of the weld-repair process of superplastic forming tools. Materials and Design, Elsevier, 2013, 46, pp.731-739. 10.1016/j.matdes.2012 AbstractSuperplastic forming (SPF) dies are generally made of using heat resistant cast steels, which are very sensitive to weld cracking. In order to improve the weld-repair process of such dies to prevent weld-cracking, the microstructure and the mechanical behaviour of a typical heatresistant cast steel was first studied, using isothermal low-cycle fatigue tests and in-situ tensile tests. The welding behaviour of such steel was also investigated, using a shielded metal arc welding (SMAW) process and welding conditions similar to those employed for weld repair industrial dies. The comparison of the aspect of weld-cracking with the fracture mechanisms observed at room temperature or during isothermal low-cycle fatigue tests suggests a similar brittle failure mechanism, due to the presence of large interdendritic carbides in the cast steel.The melting of the cast steel surface using a gas tungsten arc welding (GTAW) process allowed to refine the primary carbides, and then to reduce the weld-cracking sensitivity. The 2 refining method with GTAW before welding has been successfully tested to weld-repair a sample representative of SPF dies, and is recommended for subsequent repairs of such dies.

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“…In welding numerical analyses, the moving double-ellipsoidal model, proposed by Goldak et al [1], is one of the most widely used heat source models. The model is unique due to its ability to accommodate different fusion welding techniques, which include gas metal arc welding (GMAW) [2][3][4][5][6], gas tungsten arc welding [5,[7][8][9][10][11][12][13][14][15][16], shielded metal arc welding [7], submerged arc welding [1], laser spot welding [17], electron beam welding [1,18], and laser-GMA hybrid welding [19].…”

Section: Introductionmentioning

confidence: 99%

Analytical solutions of the thermal field induced by moving double-ellipsoidal and double-elliptical heat sources in a semi-infinite body

Fachinotti

Anca

Cardona

2011

Int. J. Numer. Meth. Biomed. Engng.

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SUMMARYAn analytical solution is computed for the thermal field induced in a semi-infinite body by a moving heat source whose shape was proposed by Goldak et al. for the simulation of welding processes. Owing to its ability to accommodate a wide variety of welding techniques, this model is widely used. Throughout two semi-ellipsoidal volumes, corresponding to the front and the rear parts of the moving source, the heat power density is distributed using a Gaussian function.In the literature, Nguyen et al. have proposed an analytical solution to this problem that is, however, only correct when both semi-ellipsoids are equal (i.e. for a single-ellipsoidal model). The current work presents an extension of the analytical solution of Nguyen et al. to the double-ellipsoidal case. As a special case, the solution for the temperature field induced by a double-elliptical surface heat source is also developed.In order to validate the analytical solutions, the problem is solved using both two-and threedimensional finite element models in several test-cases. Solutions for double-ellipsoidal and doubleelliptical sources are numerically computed and compared with the analytical solutions, while clearly demonstrating the differences with respect to the solution of Nguyen et al. At the same time, the two-dimensional numerical approximation is evaluated in terms of accuracy and computational cost.

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Experimental and numerical investigation of the weld repair of superplastic forming dies

Cited by 14 publications

References 3 publications

Study and prevention of cracking during weld-repair of heat-resistant cast steels

Study and prevention of cracking during weld-repair of heat-resistant cast steels

Analysis of weld-cracking and improvement of the weld-repair process of superplastic forming tools

Analytical solutions of the thermal field induced by moving double-ellipsoidal and double-elliptical heat sources in a semi-infinite body

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