This paper investigates the influence of post treatments on the fatigue properties of 316L stainless steel produced by laser powder bed fusion. Miniaturised fatigue samples are built in vertical orientation with optimised process conditions to result in very low porosities and minimal scatter in results. Fatigue performance is evaluated for two different material conditions: as-built and stress-relieved, at a nominal load ratio of −1. Furthermore, the samples are tested with and without surface machining. A thorough microstructural and fractographic analysis is performed to evaluate the impact of the main fatigue influencing factors. The results show that the fatigue behaviour of machined samples with and without stress relief heat treatmen...
International audienceThe mechanical performances of additive manufactured (AM) material are highly ...
Additive manufacturing (AM) is a rapidly growing technology which is extending its influence into m...
International audienceCorrosive environments are known to be detrimental to the mechanical strength ...
This paper investigates the influence of post treatments on the fatigue properties of 316L stainless...
The laser powder bed fusion (L-PBF) process involves a large number of processing parameters. Extend...
n this study, the effects of build orientation on the mechanical properties and fatigue life of sta...
International audienceAdditive Manufacturing is a powerful process to build complex geometry. Beside...
In this paper, the influences of build orientation and post-fabrication processes, including stress-...
In this study, the fatigue strength of 316 L stainless steel manufactured by selective laser melting...
In this paper, the influences of build orientation and post-fabrication processes, including stress-...
In this work, stainless steel 316L obtained by Laser Powder Bed Fusion (L-PBF) has been produced and...
Abstract Severe shot peening (SSP) was used on additive manufactured 316L by laser powder bed fusio...
This article presents the data demonstrating the synergistic effect of surface roughness and heat tr...
Severe shot peening (SSP) was used on additive manufactured 316L by laser powder bed fusion. The eff...
The mechanical performances of additive manufactured (AM) material are highly dependent on the fabri...
International audienceThe mechanical performances of additive manufactured (AM) material are highly ...
Additive manufacturing (AM) is a rapidly growing technology which is extending its influence into m...
International audienceCorrosive environments are known to be detrimental to the mechanical strength ...
This paper investigates the influence of post treatments on the fatigue properties of 316L stainless...
The laser powder bed fusion (L-PBF) process involves a large number of processing parameters. Extend...
n this study, the effects of build orientation on the mechanical properties and fatigue life of sta...
International audienceAdditive Manufacturing is a powerful process to build complex geometry. Beside...
In this paper, the influences of build orientation and post-fabrication processes, including stress-...
In this study, the fatigue strength of 316 L stainless steel manufactured by selective laser melting...
In this paper, the influences of build orientation and post-fabrication processes, including stress-...
In this work, stainless steel 316L obtained by Laser Powder Bed Fusion (L-PBF) has been produced and...
Abstract Severe shot peening (SSP) was used on additive manufactured 316L by laser powder bed fusio...
This article presents the data demonstrating the synergistic effect of surface roughness and heat tr...
Severe shot peening (SSP) was used on additive manufactured 316L by laser powder bed fusion. The eff...
The mechanical performances of additive manufactured (AM) material are highly dependent on the fabri...
International audienceThe mechanical performances of additive manufactured (AM) material are highly ...
Additive manufacturing (AM) is a rapidly growing technology which is extending its influence into m...
International audienceCorrosive environments are known to be detrimental to the mechanical strength ...