Tag: alloy
ORNL and NETL develop alloy for additive manufacturing
ORNL and NETL have developed a seven-element alloy that can operate at high temperatures without cracking or melting
Alleima introduces a super-duplex alloy: SAF™ 3006
Alleima's SAF™ 3006: High-alloy duplex steel enhances corrosion resistance in harsh environments.
Alleima unveils new alloy designed SAF™ 3007
Alleima unveils SAF™ 3007, a duplex steel grade optimized for subsea umbilicals, offering superior strength and corrosion resistance.
High-tech additive manufacturing from NZ
A New Zealand company is 3D printing top-tier alloy parts for global industries. RAM3D, achieved remarkable success in a decade.
Alleima’s contribution to “900 Ways to Make a Change”
In a global marketing campaign “900 ways to make a change” Alleima highlights how more than 900 advanced alloys can make a change globally.
New superalloy ABD-900AM
Aubert & Duval has developed an age-hardenable nickel-based superalloy designed specifically for use as feedstock in powder bed fusion. Stellar ABD®-900AM is optimized for...
Sandvik Materials Technology becomes Alleima – a new era dawns for...
Sandvik Materials Technology has separated from the Sandvik group and been renamed Alleima and listed on the Nasdaq Stockholm Exchange
Featured Story – Materials revolution: alloy R&D gains a new lease...
Until quite recently, materials development was often thought to be a mature discipline.
Nanostructured alloying with oxygen
Scientists from the Max-Planck-Institut für Eisenforschung (MPIE), the Austrian Erich Schmid Institute of Material Science, the Universities Leoben and Graz (Austria) and the Chinese Hubei University analysed in-situ copper-iron alloys during annealing to find out when and how oxide is formed and how it can be used to strengthen nanocrystalline materials.
New alloy as tough as steel
Scientists at the California Institute of Technology in Pasadena have developed an alloy that is as strong and as sturdy as the toughest steel. Combining the best features of glass and metals to create amorphous metals, this development could potentially replace steel in buildings, cars or bridges.
