Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fatigue life, surface hardness, corrosion resistance, and residual compressive stress. Compared with laser shock peening, warm laser shock peening (WLSP) is a newer surface treatment technology used to improve materials’ surface performances, which takes advantage of thermal mechanical effects on stress strengthening and microstructure strengthening, resulting in a more stable distribution of residual compressive stress under the heating and cyclic loading process. In this paper, the microstructure of the GH4169 nickel superalloy processed by WLSP technology with different laser parameters was investigated. The proliferation and tangling ...
This investigation focused on the tensile deformation behavior of a single crystal nickel-base super...
Warm laser shock peening is an innovative manufacturing process that integrates laser shock peening ...
Laser shock peening (LSP), a surface modification technique, is promising to enhance the strength an...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
In order to explore the effect of warm laser shock peening (WLSP) on the GH4169 superalloy, the micr...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
To cater to the diverse requirements of industrial applications, it is crucial to conduct a comprehe...
The single crystal superalloy SRR99 experimental samples were single point treated by laser shock pe...
The single crystal superalloy SRR99 experimental samples were single point treated by laser shock pe...
Nickel superalloys are strong, tough metallic materials, that are widely used in heavy duty machiner...
This investigation focused on the tensile deformation behavior of a single crystal nickel-base super...
This investigation focused on the tensile deformation behavior of a single crystal nickel-base super...
Warm laser shock peening is an innovative manufacturing process that integrates laser shock peening ...
Laser shock peening (LSP), a surface modification technique, is promising to enhance the strength an...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
Laser shock peening (LSP), as an innovative surface treatment technology, can effectively improve fa...
In order to explore the effect of warm laser shock peening (WLSP) on the GH4169 superalloy, the micr...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
Compared with the laser shock peening, the warm laser shock peening has been demonstrated to get a s...
To cater to the diverse requirements of industrial applications, it is crucial to conduct a comprehe...
The single crystal superalloy SRR99 experimental samples were single point treated by laser shock pe...
The single crystal superalloy SRR99 experimental samples were single point treated by laser shock pe...
Nickel superalloys are strong, tough metallic materials, that are widely used in heavy duty machiner...
This investigation focused on the tensile deformation behavior of a single crystal nickel-base super...
This investigation focused on the tensile deformation behavior of a single crystal nickel-base super...
Warm laser shock peening is an innovative manufacturing process that integrates laser shock peening ...
Laser shock peening (LSP), a surface modification technique, is promising to enhance the strength an...
Add to ORKG