Researchers from Purdue University and the University of South China have developed a new 3D-printable steel alloy that is rust-proof, 30% stronger, and twice as ductile as typical printed metals.

Researchers unveiled an LPBF aluminum alloy that stays strong and creep resistant up to 400C with no heat treatment.

Explore MAR-M 247LC with the first validated dataset for nickel-base superalloys via metal binder jetting by Ampd Labs ...

This study highlights the significance of coupling large Lüders strain and high stability γ to achieve a strength-ductility ...

Scientists used machine learning to create a 3D-printable steel with high strength, ductility, and corrosion resistance, ...

Scientists from Purdue University and the University of South China have developed a new alloy by using a machine algorithm ...

POSCO has set a new milestone in Korea’s defense industry with the development of advanced structural materials for naval vessels. The company said Thursday it successfully developed the nation’s ...

In a landmark advancement for structural materials engineering, researchers have developed a novel heterostructured titanium matrix composite that demonstrates exceptional mechanical performance from ...

The alloy, developed by German researchers, has a rare combination of ductility at room temperature and oxidation resistance at temperatures up to 1100 °C, important qualities for durable materials in ...

Strength, ductility and toughness are three very important, closely related material properties. The yield and ultimate strengths tell us how much stress a material can withstand, and are often used ...

According to the Korea Advanced Institute of Science & Technology (KAIST), a research team led by Professor Seungchul Lee from the Department of Mechanical Engineering, in collaboration with Professor ...