The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potential of using laser cladding as a repair tool for such steels in aeronautical structural applications. AISI 4340 and AerMet 100 steel powder were used to clad over a grind-out region in an AISI 4340 steel substrate using a 2.5 kW ND:YAG laser. Post-clad heat treatment (PCHT) was also investigated. Results showed very poor tensile properties and significantly reduced fatigue life of the AISI 4340 as-clad with a very high hardness and brittle fracture in the clad and HAZ zone. Residual stress results showed a compressive residual stress in the clad region and tensile residual stress in the HAZ. Changing the alloy of the clad layer to AerMet 100 ...
In this work 300M steel samples is used. This high-strength steel is used in aeronautic and aerospac...
Laser hardening brings a great increase in part life and it is an industry-proven process, typically...
In order to improve the mechanical properties, and thus the in-service behaviour, of mechanical comp...
The fatigue behaviour of an ultra-high strength steel (>1800. MPa) was evaluated to assess the po...
Ultra-high strength steels are widely used in fatigue critical load carrying aerospace components, s...
Ultra-high strength steels employed in safety-critical applications, such as AerMet®100 used in airc...
Laser cladding is an additive manufacturing process that is used for surface repair and restoration ...
The metallurgy and fatigue properties were evaluated for the laser cladding of AerMet® 100 powder on...
The sustainability benefits that remanufacturing concept brings about has called upon the need to fu...
In the present investigation, a high-power diode laser was applied to improve the fatigue life of AI...
The influence of surface heat treatment using laser radiation on the fatigue strength and correspond...
The high-cycle fatigue behavior of a CrB2-coated AISI 4340 steel subjected to four-point-bend fatigu...
Laser cladding is an established, sustainable and value-adding process. So far, merely statically lo...
Fatigue life study of structures constructed by laser cladding using two types of hardfacing alloy, ...
Laser cladding is an additive manufacturing process which is spreading as a valuable resource for ma...
In this work 300M steel samples is used. This high-strength steel is used in aeronautic and aerospac...
Laser hardening brings a great increase in part life and it is an industry-proven process, typically...
In order to improve the mechanical properties, and thus the in-service behaviour, of mechanical comp...
The fatigue behaviour of an ultra-high strength steel (>1800. MPa) was evaluated to assess the po...
Ultra-high strength steels are widely used in fatigue critical load carrying aerospace components, s...
Ultra-high strength steels employed in safety-critical applications, such as AerMet®100 used in airc...
Laser cladding is an additive manufacturing process that is used for surface repair and restoration ...
The metallurgy and fatigue properties were evaluated for the laser cladding of AerMet® 100 powder on...
The sustainability benefits that remanufacturing concept brings about has called upon the need to fu...
In the present investigation, a high-power diode laser was applied to improve the fatigue life of AI...
The influence of surface heat treatment using laser radiation on the fatigue strength and correspond...
The high-cycle fatigue behavior of a CrB2-coated AISI 4340 steel subjected to four-point-bend fatigu...
Laser cladding is an established, sustainable and value-adding process. So far, merely statically lo...
Fatigue life study of structures constructed by laser cladding using two types of hardfacing alloy, ...
Laser cladding is an additive manufacturing process which is spreading as a valuable resource for ma...
In this work 300M steel samples is used. This high-strength steel is used in aeronautic and aerospac...
Laser hardening brings a great increase in part life and it is an industry-proven process, typically...
In order to improve the mechanical properties, and thus the in-service behaviour, of mechanical comp...