Add to ORKGThe electron beam welding process is used to investigate the weldability of the Ni-based superalloy Udimet 720LI. This is a modified form of the alloy Udimet 720, which has reduced concentrations of interstitial elements such as boron, silicon, and carbon. The history of high strength superalloys like this one suggests that welding will be difficult because of their tendency towards hot cracking during the welding process, or strain-age cracking during the post-weld aging process. Studies were done on several sizes of weldability test specimens to determine if Udimet 720LI will exhibit cracking tendencies. It was found that the alloy was not susceptible to hot cracking unless it had received the four-step aging heat treatment that is recomm...
Nickel based superalloys are an integral material for gas turbines, where their excellent high temp...
[[abstract]]Superalloys Haynes 230 is one of several high strength precipitated hardened Ni-base sup...
An extensive experimental study on a nickel-based superalloy, Rene 80 using autogenous laser weldin...
High temperature resistance and strength requirements make nickel-based superalloys the material of ...
Master's thesis in Mechanical engineeringThe effect of electron beam welding on the precipitation st...
Manufacturing of hot structural components for aero engines requires the materials being used to bew...
This paper reviews the inherent weldability of precipitation hardening Ni-based superalloys commonly...
The nickel-base superalloy Rene 80 is considered very susceptible to liquation and strain-age crack...
The operating experience of major nuclear power plant (NPP) pressure boundary components has recentl...
Welding of Nickel Based Super Alloys has been challenging due to the cracking and microstructure seg...
Precipitation hardened Ni- and Ni-Fe- based superalloys, used in hot structural components for aero ...
The aim of this study was to present the hot cracking behavior of a blade originating from a turbine...
There is a need for materials with high strength, oxidation resistance, thermal stability and adequa...
High temperature Ni-base superalloys are largely used in components of aircraft engines which are su...
Hot cracking susceptibility of fillers 52 and 82 in 800H and 825 nickel-base superalloys was discuss...
Nickel based superalloys are an integral material for gas turbines, where their excellent high temp...
[[abstract]]Superalloys Haynes 230 is one of several high strength precipitated hardened Ni-base sup...
An extensive experimental study on a nickel-based superalloy, Rene 80 using autogenous laser weldin...
High temperature resistance and strength requirements make nickel-based superalloys the material of ...
Master's thesis in Mechanical engineeringThe effect of electron beam welding on the precipitation st...
Manufacturing of hot structural components for aero engines requires the materials being used to bew...
This paper reviews the inherent weldability of precipitation hardening Ni-based superalloys commonly...
The nickel-base superalloy Rene 80 is considered very susceptible to liquation and strain-age crack...
The operating experience of major nuclear power plant (NPP) pressure boundary components has recentl...
Welding of Nickel Based Super Alloys has been challenging due to the cracking and microstructure seg...
Precipitation hardened Ni- and Ni-Fe- based superalloys, used in hot structural components for aero ...
The aim of this study was to present the hot cracking behavior of a blade originating from a turbine...
There is a need for materials with high strength, oxidation resistance, thermal stability and adequa...
High temperature Ni-base superalloys are largely used in components of aircraft engines which are su...
Hot cracking susceptibility of fillers 52 and 82 in 800H and 825 nickel-base superalloys was discuss...
Nickel based superalloys are an integral material for gas turbines, where their excellent high temp...
[[abstract]]Superalloys Haynes 230 is one of several high strength precipitated hardened Ni-base sup...
An extensive experimental study on a nickel-based superalloy, Rene 80 using autogenous laser weldin...