Add to ORKGThe metallurgy and fatigue properties were evaluated for the laser cladding of AerMet® 100 powder on AerMet® 100 substrate. Working with small scale tensile and fatigue samples causes an overextended HAZ due to the constant heating applied on a small thermal mass. The limited heat input causes major processing issues with inter-run porosity observed. The microstructure observed in both the clad and Heat-affected Zone (HAZ) is (1) inhomogeneous and nonuniform and (2) hard and brittle martensitic structure. As a result, the yield strength is reduced by 37%, ultimate tensile strength (UTS) reduced by 13%, elongation reduced by 57%, and the fatigue life is reduced significantly
The aim of this paper was to investigate the effect of delay time between the clad tracks on the mic...
The high-cycle fatigue behavior of a CrB2-coated AISI 4340 steel subjected to four-point-bend fatigu...
In order to improve the wear properties of H13 die steel, the thermal fatigue properties of AISI H13...
The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potent...
The sustainability benefits that remanufacturing concept brings about has called upon the need to fu...
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 ...
Laser cladding repair technology is valued for its ability to repair of damaged parts with high perf...
Laser cladding is an established, sustainable and value-adding process. So far, merely statically lo...
By tuning the process parameters mainly scanning speed ASTM A131 EH36 steel samples with high streng...
The influence of surface heat treatment using laser radiation on the fatigue strength and correspond...
Laser cladding is a more recent approach to repair of aviation components within a damage tolerant f...
Laser cladding is an additive manufacturing process which is spreading as a valuable resource for ma...
This article presents the data demonstrating the synergistic effect of surface roughness and heat tr...
Hot working tool steel (AISI H13) is one of the most common die materials used in casting industries...
The aim of this paper was to investigate the effect of delay time between the clad tracks on the mic...
The high-cycle fatigue behavior of a CrB2-coated AISI 4340 steel subjected to four-point-bend fatigu...
In order to improve the wear properties of H13 die steel, the thermal fatigue properties of AISI H13...
The fatigue behaviour of an ultra-high strength steel (>1800 MPa) was evaluated to assess the potent...
The sustainability benefits that remanufacturing concept brings about has called upon the need to fu...
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 ...
Laser cladding repair technology is valued for its ability to repair of damaged parts with high perf...
Laser cladding is an established, sustainable and value-adding process. So far, merely statically lo...
By tuning the process parameters mainly scanning speed ASTM A131 EH36 steel samples with high streng...
The influence of surface heat treatment using laser radiation on the fatigue strength and correspond...
Laser cladding is a more recent approach to repair of aviation components within a damage tolerant f...
Laser cladding is an additive manufacturing process which is spreading as a valuable resource for ma...
This article presents the data demonstrating the synergistic effect of surface roughness and heat tr...
Hot working tool steel (AISI H13) is one of the most common die materials used in casting industries...
The aim of this paper was to investigate the effect of delay time between the clad tracks on the mic...
The high-cycle fatigue behavior of a CrB2-coated AISI 4340 steel subjected to four-point-bend fatigu...
In order to improve the wear properties of H13 die steel, the thermal fatigue properties of AISI H13...