Author:
Hayashi Miu,Kurita Naoki,Watanabe Tadatoshi,Akebono Hiroyuki,Sugeta Atsushi
Publisher
Springer Nature Singapore
Reference6 articles.
1. Beretta, S., Romano, S.: A comparison of fatigue strength sensitivity to defects for materials manufactured by AM or traditional processes. Int. J. Fatigue 94, 178–191 (2017)
2. Masuo, H., Tanaka, Y., Yagura, H., Uchida, T., Yamamoto, Y., Murakami, Y.: Effects of defects, surface roughness and HIP on fatigue strength of Ti-6Al-4V manufactured by additive manufacturing. Procedia Struct. Integrity 7, 19–26 (2017)
3. Kahlin, M., et al.: Improved fatigue strength of additively manufactured Ti6Al4V by surface post processing. Int. J. Fatigue 134, 105497 (2020)
4. Takahashi, K., Kogishi, Y., Shibuya, N., Kumeno, F.: Effects of laser peening on the fatigue strength and defect tolerance of aluminum alloy. Fatigue Fatigue Eng. Mater. Struct. 43, 845–856 (2020)
5. Schneller, W., Leitner, M., Springer, S., Grün, F., Taschauer, M.: Effect of HIP treatment on microstructure and fatigue strength of selectively laser melted AlSi10Mg. J. Manufact. Mater. Process. 3(1), 16 (2019)