This research investigates the high-temperature mechanical behavior of FGMs SS316L/IN718 fabricated by LDED, addressing a critical gap in understanding their post-deposition properties. The results show that process parameters, heat treatment and sample orientation significantly influence the mechanical characteristics of both individual materials and the composite FGMs. The study demonstrates that SS316L/IN718 through LDED has considerable promise for high-temperature uses, offering enhanced performance and a broader range of applications.
Annotation in English
This research investigates the high-temperature mechanical behavior of FGMs SS316L/IN718 fabricated by LDED, addressing a critical gap in understanding their post-deposition properties. The results show that process parameters, heat treatment and sample orientation significantly influence the mechanical characteristics of both individual materials and the composite FGMs. The study demonstrates that SS316L/IN718 through LDED has considerable promise for high-temperature uses, offering enhanced performance and a broader range of applications.
This research investigates the high-temperature mechanical behavior of FGMs SS316L/IN718 fabricated by LDED, addressing a critical gap in understanding their post-deposition properties. The results show that process parameters, heat treatment and sample orientation significantly influence the mechanical characteristics of both individual materials and the composite FGMs. The study demonstrates that SS316L/IN718 through LDED has considerable promise for high-temperature uses, offering enhanced performance and a broader range of applications.
Annotation in English
This research investigates the high-temperature mechanical behavior of FGMs SS316L/IN718 fabricated by LDED, addressing a critical gap in understanding their post-deposition properties. The results show that process parameters, heat treatment and sample orientation significantly influence the mechanical characteristics of both individual materials and the composite FGMs. The study demonstrates that SS316L/IN718 through LDED has considerable promise for high-temperature uses, offering enhanced performance and a broader range of applications.