Advances in Solid-State Joining at EWI
Advances in Solid-State Joining at EWI
Advances in Solid-State Joining at EWI
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Resistance and <strong>Solid</strong>-<strong>St<strong>at</strong>e</strong> Technologies<br />
– Summary<br />
<br />
Resistance Weld<strong>in</strong>g<br />
─ Spot<br />
─ Th<strong>in</strong> m<strong>at</strong>erials<br />
─ Conductive he<strong>at</strong><br />
─ Embossed projection<br />
─ Seam<br />
─ Pipe cladd<strong>in</strong>g<br />
─ Mash seam<br />
─ Dissimilar m<strong>at</strong>erials<br />
─ Flash butt<br />
─ Resistance butt<br />
─ TAUW<br />
─ Electro-spark<br />
deposition<br />
─ Percussive<br />
─ Braz<strong>in</strong>g<br />
<br />
<strong>Solid</strong>-<strong>St<strong>at</strong>e</strong> Weld<strong>in</strong>g<br />
─ Friction<br />
─ Friction stir<br />
─ Inertia<br />
─ Alum<strong>in</strong>um to steel<br />
─ Hot upset<br />
─ Cold pressure<br />
─ Friction stir<br />
─ <strong>Solid</strong> projection<br />
─ Magnetic pulse<br />
─ Diffusion<br />
─ Stud<br />
<br />
Ancillary<br />
Technologies<br />
─ Design-ofexperiments<br />
methods<br />
─ Instrument<strong>at</strong>ion and<br />
control<br />
─ Mechanical<br />
fasten<strong>in</strong>g<br />
─ Model<strong>in</strong>g and<br />
simul<strong>at</strong>ion
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