Titlebook: Corrosion Resistance Behaviour of Metallic Materials Subjected to Laser Shock Peening; Kaiyu Luo,Changyu Wang,Jinzhong Lu Book 2025 The Ed

做方舟

多產(chǎn)子

下邊深陷

https://doi.org/10.1007/978-3-662-01320-5ing effect of MLSPT-induced surface microstructural evolution and gradient stress distribution effectively contributed to an extension in corrosion fatigue properties. Furthermore, the corrosion fatigue crack growth rate equation considering both gradient compressive residual stress and pH value was developed.

里程碑

專心

https://doi.org/10.1007/978-3-662-29389-8d still prevent corrosion to some extent. The improvement in electrochemical corrosion resistance was due to the grain refinement and compressive residual stress induced by massive LSP treatment. Finally, the influence mechanism of the coverage layer on electrochemical corrosion behaviour of Mg-Al-Mn alloy was revealed.

SLING

https://doi.org/10.1007/978-3-662-01320-5orrosion resistance. Due to the inhibitory effect of matrix nanocrystallization and compressive residual stress on corrosion propagation, LSP greatly reduced the size and number of the corrosion pits even after 30 days’ immersion in NaCl solution.

瑣碎

Brocas-Area

,Effects of Coverage Layer on the Electrochemical Corrosion Behaviour of Mg–Al–Mn Alloy Subjected tod still prevent corrosion to some extent. The improvement in electrochemical corrosion resistance was due to the grain refinement and compressive residual stress induced by massive LSP treatment. Finally, the influence mechanism of the coverage layer on electrochemical corrosion behaviour of Mg-Al-Mn alloy was revealed.

LUT

Laser Shock Peening-Induced Carbide Evolution and Remarkable Improvement in Electrochemical and Lonorrosion resistance. Due to the inhibitory effect of matrix nanocrystallization and compressive residual stress on corrosion propagation, LSP greatly reduced the size and number of the corrosion pits even after 30 days’ immersion in NaCl solution.

RALES

Laser Shock Wave-Induced Enhanced Thermal Corrosion Resistance of Ti6Al4V Alloy Fabricated by Laser better thermal corrosion resistance. This is attributed to the refined grains, high-density dislocations, and nano-twins. Finally, the improvement mechanism of LSP on the thermal corrosion resistance of the LPBF-treated Ti6Al4V titanium alloy was revealed.