Comparison of Nano-Mechanical Behavior between Selective Laser Melted SKD61 and H13 Tool Steels

Comparison of Nano-Mechanical Behavior between Selective Laser Melted SKD61 and H13 Tool Steels

Using nanoindentation under various strain rates, the mechanical properties of a laser powder bed fusion (PBF) SKD61 at the 800 mm/s scan speed were investigated and compared to PBF H13. No obvious pile-up due to the ratio of the residual depth (hf) and the maximum depth (hmax) being lower than 0.7...

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Veröffentlicht in:Metals (Basel ) 2018-12, Vol.8 (12), p.1032
Hauptverfasser: Yun, Jaecheol, Nguyen, Van Luong, Choe, Jungho, Yang, Dong-Yeol, Lee, Hak-Sung, Yang, Sangsun, Yu, Ji-Hun
Format: Artikel
Sprache:eng
Schlagworte:
Chromium molybdenum vanadium steels
Hot work tool steels
Laser beam melting
Laser powder bed fusion
Lasers
Mechanical properties
Nanoindentation
Powder beds
selective laser melting
SKD61 tool steel
Strain rate sensitivity
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Zusammenfassung:Using nanoindentation under various strain rates, the mechanical properties of a laser powder bed fusion (PBF) SKD61 at the 800 mm/s scan speed were investigated and compared to PBF H13. No obvious pile-up due to the ratio of the residual depth (hf) and the maximum depth (hmax) being lower than 0.7 and no cracking were observed on any of the indenter surfaces. The nanoindentation strain-rate sensitivity (m) of PBF SKD61 was found to be 0.034, with hardness increasing from 8.65 GPa to 9.93 GPa as the strain rate increased between 0.002 s−1 and 0.1 s−1. At the same scan speed, the m value of PBF H13 (m = 0.028) was lower than that of PBF SKD61, indicating that the mechanical behavior of PBF SKD61 was more critically affected by the strain rate compared to PBF H13. PBF processing for SKD61 therefore shows higher potential for advanced tool design than for H13.
ISSN:2075-4701
2075-4701
DOI:10.3390/met8121032