Fiber Laser Alloying of Additively Manufactured 18Ni-300 Maraging Steel Part Surface: Effect of Processing Parameters on the Formation of Alloyed Surface Layer and Its Properties

Abstract: The development of new efficient, economical, and safe methods for strengthening the working surfaces of parts is an important task in the field of improving the reliability and resourcefulness of critical equipment and structures. In the present paper, laser boronizing is investigated as an alternative method for improving the wear resistance of maraging steel parts manufactured by laser powder bed fusion (LPBF). After LPBF, the specimens’ surface was covered with an amorphous boron paste (0.03–0.6 mm) and la… Show more

“…Laser boriding of martensitic aging steels has proven to be highly effective in increasing wear resistance. The study in [67] demonstrates that changing laser irradiation parameters, such as laser beam energy and scanning speed, influences the boriding process results in a variety of microstructures in the obtained boronized layers. These microstructures range from hypoeutectic with a low boride content to mixed borides, aligning with the Fe-B phase diagram (Figure 3).…”

Fabrication of Smart Materials Using Laser Processing: Analysis and Prospects

“…Laser boriding of martensitic aging steels has proven to be highly effective in increasing wear resistance. The study in [67] demonstrates that changing laser irradiation parameters, such as laser beam energy and scanning speed, influences the boriding process results in a variety of microstructures in the obtained boronized layers. These microstructures range from hypoeutectic with a low boride content to mixed borides, aligning with the Fe-B phase diagram (Figure 3).…”

Fabrication of Smart Materials Using Laser Processing: Analysis and Prospects