Final version. A S Wilson. Formation and effect of topologically close . . . The formation of topologically close-packed (TCP) phases in nickel-base superalloys is an issue of increasing importance as alloys are designed with higher refractory element contents to meet the requirements of next generation turbine engines
Formation and effect of topologically close-packed phases in nickel . . . The formation of topologically close-packed (TCP) phases in nickel-base superalloys is an issue of increasing importance as alloys are designed with higher refractory element contents to meet the requirements of next generation turbine engines
The precipitation and effect of topologically close-packed phases in Ni . . . The precipitation of topologically close-packed (TCP) phases is the result of microstructure instabilities of Ni-based superalloys This review seeks to comprehensively collate all the available information on TCP phases in SX superalloys based on the latest findings
Topologically Closed Packed Phase and Its Interaction with . . . - MDPI Abstract In superalloys, topologically close–packed (TCP) phases, which contain refractory elements, usually significantly influence the mechanical properties The current work investigates the structure and composition of the TCP phase in an Al–Mo–rich Ni–based single crystal superalloy