Add to ORKGNew grades of γ/γ′ nickel-based superalloy for the additive manufacturing process are designed using computational approaches. Account is taken of the need to avoid defect formation via solidification and solid-state cracking. Processing trials are carried out using powder-based selective laser melting, with the heritage alloys IN939 and CM247LC. Microstructural characterisation, calorimetry and hot tensile testing are used to assess the approach employed. The superior processability and mechanical integrity of the new alloys are demonstrated. Suggestions are made for refinements to the modelling approach
The present paper addresses the phenomena of hot cracking of nickel-based superalloys in the perspec...
Nickel-based superalloys exhibit an impressive range of mechanical properties, from high temperature...
Additive manufacturing (AM), e.g., laser powder bed fusion (LPBF) technique, has become a powerful m...
New grades of γ/γ′ nickel-based superalloy for the additive manufacturing process are designed using...
Nickel-based superalloys, an alloy system bases on nickel as the matrix element with the addition of...
In this work, we investigated the viability of established hot cracking models for numerically based...
Nickel-based superalloys are substantially used in the manufacturing of boilers for ultra-supercriti...
The performance of superalloy materials at high temperatures is what makes gas turbine technology po...
Additive manufacturing of metals has received a lot of attention in the last decade as this family o...
The susceptibility of nickel-based superalloys to processing-induced crack formation during laser po...
High-ℽ' nickel-based superalloys are abundantly used in the aerospace, marine, nuclear, and chemica...
Nickel-based superalloys have a wide range of applications, mainly in gas turbines for power generat...
The nickel-based superalloys have been a key enabler to the development of modern gas turbine engin...
Nickel-base superalloys have been used in cast and wrought, and powder metallurgy forms for nearly f...
Nickel-base superalloys have been used in cast and wrought, and powder metallurgy forms for nearly f...
The present paper addresses the phenomena of hot cracking of nickel-based superalloys in the perspec...
Nickel-based superalloys exhibit an impressive range of mechanical properties, from high temperature...
Additive manufacturing (AM), e.g., laser powder bed fusion (LPBF) technique, has become a powerful m...
New grades of γ/γ′ nickel-based superalloy for the additive manufacturing process are designed using...
Nickel-based superalloys, an alloy system bases on nickel as the matrix element with the addition of...
In this work, we investigated the viability of established hot cracking models for numerically based...
Nickel-based superalloys are substantially used in the manufacturing of boilers for ultra-supercriti...
The performance of superalloy materials at high temperatures is what makes gas turbine technology po...
Additive manufacturing of metals has received a lot of attention in the last decade as this family o...
The susceptibility of nickel-based superalloys to processing-induced crack formation during laser po...
High-ℽ' nickel-based superalloys are abundantly used in the aerospace, marine, nuclear, and chemica...
Nickel-based superalloys have a wide range of applications, mainly in gas turbines for power generat...
The nickel-based superalloys have been a key enabler to the development of modern gas turbine engin...
Nickel-base superalloys have been used in cast and wrought, and powder metallurgy forms for nearly f...
Nickel-base superalloys have been used in cast and wrought, and powder metallurgy forms for nearly f...
The present paper addresses the phenomena of hot cracking of nickel-based superalloys in the perspec...
Nickel-based superalloys exhibit an impressive range of mechanical properties, from high temperature...
Additive manufacturing (AM), e.g., laser powder bed fusion (LPBF) technique, has become a powerful m...