Precipitate evolution and thermal stability of A205 fabricated using laser powder bed fusion

“…2 (d)). The inferences from Figure 2 are consistent with a previous report [36] on detailed microstructural characterization and thermal stability of LPBF A205. The alloy also showed thermal stability up to at least 100 h at 200 °C, which can be attributed to the resistance of the intragranular precipitates to coarsening and the stable grain size.…”

“…The nomenclature for this heat treatment will be SA530WQ. All the mechanical property evaluations were carried out for SA530WQ condition after establishing the uniaxial mechanical properties, as reported in the earlier report [36] . The thermal stability of SA530WQ was evaluated by isothermal exposure for 100 h at 200 °C.…”

Creep Behavior of Additively Manufactured High Strength A205 Aluminum Alloy

“…2 (d)). The inferences from Figure 2 are consistent with a previous report [36] on detailed microstructural characterization and thermal stability of LPBF A205. The alloy also showed thermal stability up to at least 100 h at 200 °C, which can be attributed to the resistance of the intragranular precipitates to coarsening and the stable grain size.…”

“…The nomenclature for this heat treatment will be SA530WQ. All the mechanical property evaluations were carried out for SA530WQ condition after establishing the uniaxial mechanical properties, as reported in the earlier report [36] . The thermal stability of SA530WQ was evaluated by isothermal exposure for 100 h at 200 °C.…”

Creep Behavior of Additively Manufactured High Strength A205 Aluminum Alloy

Friction stir welding of additively manufactured A20X aluminum alloy: welding process, mechanical properties, and microstructure

Creep behavior of additively manufactured high strength A205 aluminum alloy