A precipitation strengthened high entropy alloy with high (Al+ Ti) content for laser powder bed fusion: Synergizing in trinsic hot cracking resistance and ultrahigh …
Additive manufacturing (AM) is a highly promising technique for producing near-net-shape
high-value aerospace components with intricate geometries. However, due to the …
high-value aerospace components with intricate geometries. However, due to the …
A precipitation strengthened high entropy alloy with high (Al+ Ti) content for laser powder bed fusion: Synergizing in trinsic hot cracking resistance and ultrahigh …
S Wu, HY Chia, T Zhang, Y Jia, Y Mu… - Acta …, 2023 - ui.adsabs.harvard.edu
Additive manufacturing (AM) is a highly promising technique for producing near-net-shape
high-value aerospace components with intricate geometries. However, due to the …
high-value aerospace components with intricate geometries. However, due to the …
A precipitation strengthened high entropy alloy with high (Al+ Ti) content for laser powder bed fusion: Synergizing in trinsic hot cracking resistance and ultrahigh …
S Wu, HY Chia, T Zhang, Y Jia, Y Mu, Q Zhang… - Acta …, 2023 - scholars.cityu.edu.hk
Additive manufacturing (AM) is a highly promising technique for producing near-net-shape
high-value aerospace components with intricate geometries. However, due to the …
high-value aerospace components with intricate geometries. However, due to the …
[PDF][PDF] A precipitation strengthened high entropy alloy with high (Al+ Ti) content for laser powder bed fusion: Synergizing in trinsic hot cracking resistance and ultrahigh …
S Wu, HY Chia, T Zhang, Y Jia, Y Mu, Q Zhang… - Acta …, 2023 - researchgate.net
Additive manufacturing (AM) is a highly promising technique for producing near-net-shape
high-value aerospace components with intricate geometries. However, due to the …
high-value aerospace components with intricate geometries. However, due to the …