2016
DOI: 10.3788/cjl201643.0203003
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Microstructure Evolution and Mechanical Properties of 5CrNi4Mo Die Steel Parts by Selective Laser Melting Additive Manufacturing

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Cited by 3 publications
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“…For the 5CrNi4Mo material, Nanjing University of Aeronautics and Astronautics compares the repair effects of different laser energy density values to obtain the best laser energy density value. The microhardness of the repair layer reached 689.5 HV 0.2, the friction coefficient reached 0.44, and the wear rate reached 2.3×10 -5 mm 3 /(N•m) [17]. A suitable laser energy density value effectively improves the performance of the repaired surface.…”
Section: Figure 2 Mold Repair Sequencementioning
confidence: 97%
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“…For the 5CrNi4Mo material, Nanjing University of Aeronautics and Astronautics compares the repair effects of different laser energy density values to obtain the best laser energy density value. The microhardness of the repair layer reached 689.5 HV 0.2, the friction coefficient reached 0.44, and the wear rate reached 2.3×10 -5 mm 3 /(N•m) [17]. A suitable laser energy density value effectively improves the performance of the repaired surface.…”
Section: Figure 2 Mold Repair Sequencementioning
confidence: 97%
“…Laser cladding technology is an important development direction for mold surface repair. Compared to the application of other additive manufacturing technologies in mold repair, laser cladding technology has the following unique advantages due to its unique laser rapid heating-solidification molding mechanism [17,19,20]: 1) By selecting the appropriate laser energy density value, the density of the repaired cladding layer can reach 98.12%. 2) This process can be used to repair molds with high dimensional accuracy and surface quality.…”
Section: Figure 2 Mold Repair Sequencementioning
confidence: 99%