One often-cited benefit of using metal additive manufacturing (AM) is the possibility to design
and produce complex geometries that suit the required function and performance of end-use …

Owing to the unparalleled advantages in repairing of high value-add component with big
size, fabricating of functionally graded material, and cladding to enhance the surface …

For rail wear problems after long-term use, laser cladding technology has attracted more
attention in the field of rail repair. At the present stage, the research mainly focuses on …

The service life of rails would be remarkably reduced owing to the increase of axle load,
which can induce the occurrence of damages such as cracks, collapse, fat edges, etc. Laser …

We propose an innovative approach to minimize the greenhouse gas impacts of additive
manufactured structures over their entire life cycle. The novelty of our method lies in its …

The successful production of metallic workpieces through selective laser melting requires a
quality assurance process that can effectively and nondestructively assess internal defects …

To improve technology readiness and realize the cost reduction of additive manufacturing as-
built components for nuclear applications where quality, performance, and lifetimes are …

Laser material deposition (LMD), a direct laser deposition additive manufacturing
technology, has been widely used to build full density metal parts. However, owing to the …

Magnesium alloys WE43 and AZ91D offer weight savings for structural applications. WE43
contains rare-earth elements such as yttrium and neodymium, whereas AZ91D and the AZ …

Successful production of metallic selective laser melting components requires a quality
assurance process that can effectively and nondestructively assess internal defects …